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PDBsum entry 1hdu
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Carboxypeptidase
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PDB id
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1hdu
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Contents |
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* Residue conservation analysis
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References listed in PDB file
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Key reference
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Title
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Insight into the stereochemistry in the inhibition of carboxypeptidase a with n-(Hydroxyaminocarbonyl)phenylalanine: binding modes of an enantiomeric pair of the inhibitor to carboxypeptidase a.
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Authors
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J.H.Cho,
D.H.Kim,
S.J.Chung,
N.C.Ha,
B.H.Oh,
K.Yong choi.
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Ref.
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Bioorg Med Chem Lett, 2002,
10,
2015-2022.
[DOI no: ]
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PubMed id
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Abstract
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Both D- and L-isomers of N-(hydroxyaminocarbonyl)phenylalanine () were shown to
have strong binding affinity towards carboxypeptidase A (CPA) with D- being more
potent than its enantiomer by 3-fold (Chung, S. J.; Kim, D. H. Bioorg. Med.
Chem. 2001, 9, 185.). In order to understand the reversed stereochemical
preference shown in the CPA inhibition, we have solved the crystal structures of
CPA complexed with each enantiometer of up to 1.75 A resolution. Inhibitor L-
whose stereochemistry belongs to the stereochemical series of substrate binds
CPA like substrate does with its carbonyl oxygen coordinating to the active site
zinc ion. Its hydroxyl is engaged in hydrogen bonding with the carboxylate of
Glu-270. On the other hand, in binding of D- to CPA, its terminal hydroxyl group
is involved in interactions with the active site zinc ion and the carboxylate of
Glu-270. In both CPA small middle dot complexes, the phenyl ring in is fitted in
the substrate recognition pocket at the S(1)' subsite, and the carboxylate of
the inhibitors forms bifurcated hydrogen bonds with the guanidinium moiety of
Arg-145 and a hydrogen bond with the guanidinium of Arg-127. In the complex of
CPA small middle dotD-, the carboxylate of the inhibitor is engaged in hydrogen
bonding with the phenolic hydroxyl of the down-positioned Tyr-248. While the L-
binding induces a concerted movement of the backbone amino acid residues at the
active site, only the downward movement of Tyr-248 was noted when D- binds to
CPA.
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