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PDBsum entry 2go3
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References listed in PDB file
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Key reference
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Title
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Mechanistic inferences from the binding of ligands to lpxc, A metal-Dependent deacetylase.
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Authors
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H.A.Gennadios,
D.A.Whittington,
X.Li,
C.A.Fierke,
D.W.Christianson.
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Ref.
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Biochemistry, 2006,
45,
7940-7948.
[DOI no: ]
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PubMed id
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Abstract
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The metal-dependent deacetylase LpxC catalyzes the first committed step of lipid
A biosynthesis in Gram-negative bacteria. Accordingly, LpxC is an attractive
target for the development of inhibitors that may serve as potential new
antibiotics for the treatment of Gram-negative bacterial infections. Here, we
report the 2.7 A resolution X-ray crystal structure of LpxC complexed with the
substrate analogue inhibitor TU-514 and the 2.0 A resolution structure of LpxC
complexed with imidazole. The X-ray crystal structure of LpxC complexed with
TU-514 allows for a detailed examination of the coordination geometry of the
catalytic zinc ion and other enzyme-inhibitor interactions in the active site.
The hydroxamate group of TU-514 forms a bidentate chelate complex with the zinc
ion and makes hydrogen bond interactions with conserved active site residues
E78, H265, and T191. The inhibitor C-4 hydroxyl group makes direct hydrogen bond
interactions with E197 and H58. Finally, the C-3 myristate moiety of the
inhibitor binds in the hydrophobic tunnel of the active site. These
intermolecular interactions provide a foundation for understanding structural
aspects of enzyme-substrate and enzyme-inhibitor affinity. Comparison of the
TU-514 complex with cacodylate and imidazole complexes suggests a possible
substrate diphosphate binding site and highlights residues that may stabilize
the tetrahedral intermediate and its flanking transition states in catalysis.
Evidence of a catalytic zinc ion in the native zinc enzyme coordinated by H79,
H238, D242, and two water molecules with square pyramidal geometry is also
presented. These results suggest that the native state of this metallohydrolase
may contain a pentacoordinate zinc ion, which contrasts with the native states
of archetypical zinc hydrolases such as thermolysin and carboxypeptidase A.
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