7JMD
| Sheep Connexin-46 at 2.5 angstroms resolution, Lipid Class 1 | 分子名称: | 1,2-DIMYRISTOYL-RAC-GLYCERO-3-PHOSPHOCHOLINE, Gap junction alpha-3 protein | 著者 | Flores, J.A, Haddad, B.G, Dolan, K.A, Myers, J.B, Yoshioka, C.C, Copperman, J, Zuckerman, D.M, Reichow, S.L. | 登録日 | 2020-07-31 | 公開日 | 2020-09-09 | 最終更新日 | 2024-10-09 | 実験手法 | ELECTRON MICROSCOPY (2.5 Å) | 主引用文献 | Connexin-46/50 in a dynamic lipid environment resolved by CryoEM at 1.9 angstrom. Nat Commun, 11, 2020
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5NJ1
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8I0M
| Structure of CDK6 in complex with inhibitor | 分子名称: | 2-[(4-azanylcyclohexyl)amino]-7-cyclopentyl-~{N},~{N}-dimethyl-pyrrolo[2,3-d]pyrimidine-6-carboxamide, Cyclin-dependent kinase 6 | 著者 | Jiang, C, Ye, Y, Huang, Y. | 登録日 | 2023-01-11 | 公開日 | 2024-01-24 | 実験手法 | X-RAY DIFFRACTION (2.7772 Å) | 主引用文献 | Structure of CDK6 in complex with inhibitor To Be Published
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8HVP
| STRUCTURE AT 2.5-ANGSTROMS RESOLUTION OF CHEMICALLY SYNTHESIZED HUMAN IMMUNODEFICIENCY VIRUS TYPE 1 PROTEASE COMPLEXED WITH A HYDROXYETHYLENE*-BASED INHIBITOR | 分子名称: | HIV-1 PROTEASE, INHIBITOR VAL-SER-GLN-ASN-LEU-PSI(CH(OH)-CH2)-VAL-ILE-VAL (U-85548E) | 著者 | Jaskolski, M, Miller, M, Tomasselli, A.G, Sawyer, T.K, Staples, D.G, Heinrikson, R.L, Schneider, J, Kent, S.B.H, Wlodawer, A. | 登録日 | 1990-10-26 | 公開日 | 1993-10-31 | 最終更新日 | 2023-11-15 | 実験手法 | X-RAY DIFFRACTION (2.5 Å) | 主引用文献 | Structure at 2.5-A resolution of chemically synthesized human immunodeficiency virus type 1 protease complexed with a hydroxyethylene-based inhibitor. Biochemistry, 30, 1991
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5LYT
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5LYZ
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5M0A
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5M3Y
| Crystal structure of human glycosylated angiotensinogen | 分子名称: | Angiotensinogen, beta-D-mannopyranose-(1-4)-2-acetamido-2-deoxy-beta-D-glucopyranose-(1-4)-2-acetamido-2-deoxy-beta-D-glucopyranose | 著者 | Yan, Y, Read, R.J. | 登録日 | 2016-10-17 | 公開日 | 2017-12-20 | 最終更新日 | 2024-01-17 | 実験手法 | X-RAY DIFFRACTION (2.3 Å) | 主引用文献 | Structural basis for the specificity of renin-mediated angiotensinogen cleavage. J. Biol. Chem., 294, 2019
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5LSH
| human lysozyme in complex with a tetrasaccharide fragment of the O-chain of LPS from Klebsiella pneumoniae | 分子名称: | CHLORIDE ION, Lysozyme C, SODIUM ION, ... | 著者 | Zhang, R, Nifantiev, N.E, Krylov, V, Luetteke, T, Scheidig, A.J, Siebert, H.-C. | 登録日 | 2016-08-26 | 公開日 | 2017-06-21 | 最終更新日 | 2024-01-17 | 実験手法 | X-RAY DIFFRACTION (1.061 Å) | 主引用文献 | Lysozyme's lectin-like characteristics facilitates its immune defense function. Q. Rev. Biophys., 50, 2017
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7GCH
| STRUCTURE OF CHYMOTRYPSIN-*TRIFLUOROMETHYL KETONE INHIBITOR COMPLEXES. COMPARISON OF SLOWLY AND RAPIDLY EQUILIBRATING INHIBITORS | 分子名称: | 1,1,1-TRIFLUORO-3-((N-ACETYL)-L-LEUCYLAMIDO)-4-PHENYL-BUTAN-2-ONE(N-ACETYL-L-LEUCYL-L-PHENYLALANYL TRIFLUOROMETHYL KETONE), GAMMA-CHYMOTRYPSIN A | 著者 | Brady, K, Ringe, D, Abeles, R.H. | 登録日 | 1990-04-06 | 公開日 | 1990-10-15 | 最終更新日 | 2024-06-05 | 実験手法 | X-RAY DIFFRACTION (1.8 Å) | 主引用文献 | Structure of chymotrypsin-trifluoromethyl ketone inhibitor complexes: comparison of slowly and rapidly equilibrating inhibitors. Biochemistry, 29, 1990
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5LUX
| Homeobox transcription factor CDX1 bound to methylated DNA | 分子名称: | DNA (5'-D(P*GP*AP*GP*GP*TP*(5CM)P*GP*TP*AP*AP*AP*AP*CP*AP*CP*AP*A)-3'), DNA (5'-D(P*GP*GP*AP*GP*GP*TP*(5CM)P*GP*TP*AP*AP*AP*AP*CP*AP*CP*AP*A)-3'), DNA (5'-D(P*TP*TP*GP*TP*GP*TP*TP*TP*TP*AP*(5CM)P*GP*AP*CP*CP*TP*C)-3'), ... | 著者 | Morgunova, E, Popov, A, Taipale, J. | 登録日 | 2016-09-12 | 公開日 | 2017-05-17 | 最終更新日 | 2024-01-17 | 実験手法 | X-RAY DIFFRACTION (3.23 Å) | 主引用文献 | Impact of cytosine methylation on DNA binding specificities of human transcription factors. Science, 356, 2017
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5LWU
| Structure resulting from an endothiapepsin crystal soaked with a dimeric derivative of fragment 177 | 分子名称: | ACETATE ION, DIMETHYL SULFOXIDE, Endothiapepsin, ... | 著者 | Schiebel, J, Heine, A, Klebe, G. | 登録日 | 2016-09-19 | 公開日 | 2017-08-09 | 最終更新日 | 2024-01-17 | 実験手法 | X-RAY DIFFRACTION (1.109 Å) | 主引用文献 | A False-Positive Screening Hit in Fragment-Based Lead Discovery: Watch out for the Red Herring. Angew. Chem. Int. Ed. Engl., 56, 2017
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5LVI
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8IE6
| Crystal structure of DAPK1 in complex with pinostilbene | 分子名称: | 3-[(E)-2-(4-hydroxyphenyl)ethenyl]-5-methoxy-phenol, Death-associated protein kinase 1, SULFATE ION | 著者 | Yokoyama, T. | 登録日 | 2023-02-15 | 公開日 | 2023-05-24 | 最終更新日 | 2023-10-04 | 実験手法 | X-RAY DIFFRACTION (1.701 Å) | 主引用文献 | Characterization of the molecular interactions between resveratrol derivatives and death-associated protein kinase 1. Febs J., 290, 2023
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8IE8
| Crystal structure of DAPK1 in complex with isorhapontigenin | 分子名称: | 5-[(~{E})-2-(3-methoxy-4-oxidanyl-phenyl)ethenyl]benzene-1,3-diol, Death-associated protein kinase 1, SULFATE ION | 著者 | Yokoyama, T. | 登録日 | 2023-02-15 | 公開日 | 2023-05-24 | 最終更新日 | 2023-10-04 | 実験手法 | X-RAY DIFFRACTION (1.75 Å) | 主引用文献 | Characterization of the molecular interactions between resveratrol derivatives and death-associated protein kinase 1. Febs J., 290, 2023
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7JGT
| Crystal Structure of FN3tt | 分子名称: | Fibronectin type-III domain-containing protein | 著者 | Luo, J, Malia, T.J. | 登録日 | 2020-07-19 | 公開日 | 2021-07-21 | 最終更新日 | 2024-04-03 | 実験手法 | X-RAY DIFFRACTION (1.9 Å) | 主引用文献 | Surface salt bridges contribute to the extreme thermal stability of an FN3-like domain from a thermophilic bacterium. Proteins, 90, 2022
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7JGU
| Structure of FN3tt mut | 分子名称: | Fibronectin type-III domain-containing protein, PENTAETHYLENE GLYCOL | 著者 | Luo, J, Boucher, L.E. | 登録日 | 2020-07-19 | 公開日 | 2021-07-21 | 最終更新日 | 2023-10-18 | 実験手法 | X-RAY DIFFRACTION (1.2 Å) | 主引用文献 | Surface salt bridges contribute to the extreme thermal stability of an FN3-like domain from a thermophilic bacterium. Proteins, 90, 2022
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8IE5
| Crystal structure of DAPK1 in complex with oxyresveratrol | 分子名称: | Death-associated protein kinase 1, SULFATE ION, trans-oxyresveratrol | 著者 | Yokoyama, T. | 登録日 | 2023-02-15 | 公開日 | 2023-05-24 | 最終更新日 | 2023-10-04 | 実験手法 | X-RAY DIFFRACTION (1.803 Å) | 主引用文献 | Characterization of the molecular interactions between resveratrol derivatives and death-associated protein kinase 1. Febs J., 290, 2023
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7JJ1
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7HBI
| SCAPHARCA DIMERIC HEMOGLOBIN, MUTANT T72V, CO-LIGANDED FORM | 分子名称: | CARBON MONOXIDE, HEMOGLOBIN, PROTOPORPHYRIN IX CONTAINING FE | 著者 | Royer Junior, W.E. | 登録日 | 1998-06-25 | 公開日 | 1998-11-11 | 最終更新日 | 2024-05-22 | 実験手法 | X-RAY DIFFRACTION (1.6 Å) | 主引用文献 | Mutational destabilization of the critical interface water cluster in Scapharca dimeric hemoglobin: structural basis for altered allosteric activity. J.Mol.Biol., 284, 1998
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8IE7
| Crystal structure of DAPK1 in complex with pterostilbene | 分子名称: | Death-associated protein kinase 1, Pterostilbene, SULFATE ION | 著者 | Yokoyama, T. | 登録日 | 2023-02-15 | 公開日 | 2023-05-24 | 最終更新日 | 2023-10-04 | 実験手法 | X-RAY DIFFRACTION (1.849 Å) | 主引用文献 | Characterization of the molecular interactions between resveratrol derivatives and death-associated protein kinase 1. Febs J., 290, 2023
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5M4V
| X-ray structure of the mambaquaretin-1, a selective antagonist of the vasopressin type 2 receptor | 分子名称: | CHLORIDE ION, Mambaquaretin-1, S-1,2-PROPANEDIOL | 著者 | Stura, E.A, Vera, L, Ciolek, J, Mourier, G, Gilles, N. | 登録日 | 2016-10-19 | 公開日 | 2017-05-03 | 最終更新日 | 2024-01-17 | 実験手法 | X-RAY DIFFRACTION (1.06 Å) | 主引用文献 | Green mamba peptide targets type-2 vasopressin receptor against polycystic kidney disease. Proc. Natl. Acad. Sci. U.S.A., 114, 2017
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7JII
| HRAS A59E GDP | 分子名称: | CALCIUM ION, GTPase HRas, GUANOSINE-5'-DIPHOSPHATE, ... | 著者 | Johnson, C.W, Haigis, K.M. | 登録日 | 2020-07-23 | 公開日 | 2022-03-02 | 最終更新日 | 2023-10-18 | 実験手法 | X-RAY DIFFRACTION (1.532 Å) | 主引用文献 | Regulation of GTPase function by autophosphorylation. Mol.Cell, 82, 2022
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7JIF
| HRAS A59T GppNHp | 分子名称: | GLYCEROL, GTPase HRas, MAGNESIUM ION, ... | 著者 | Johnson, C.W, Haigis, K.M. | 登録日 | 2020-07-23 | 公開日 | 2022-03-02 | 最終更新日 | 2023-10-18 | 実験手法 | X-RAY DIFFRACTION (1.757 Å) | 主引用文献 | Regulation of GTPase function by autophosphorylation. Mol.Cell, 82, 2022
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7JIH
| HRAS A59E GppNHp | 分子名称: | GLYCEROL, GTPase HRas, MAGNESIUM ION, ... | 著者 | Johnson, C.W, Haigis, K.M. | 登録日 | 2020-07-23 | 公開日 | 2022-03-02 | 最終更新日 | 2023-10-18 | 実験手法 | X-RAY DIFFRACTION (1.989 Å) | 主引用文献 | Regulation of GTPase function by autophosphorylation. Mol.Cell, 82, 2022
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