Molecular Dynamics Simulations of the Mononuclear Zinc-beta-lactamase from Bacillus Cereus Complexed with Benzylpenicillin and a Quantum Chemical Study of the Reaction Mechanism

Overview

Journal J Am Chem Soc

Publisher American Chemical Society

Specialty Chemistry

Date 2001 Oct 5

PMID 11583551

Citations 14

Authors

N Diaz

D Suarez

K M Merz Jr

Affiliations

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Abstract

Herein, we present results from MD simulations of the Michaelis complex formed between the B. cereus zinc-beta-lactamase enzyme and benzylpenicillin. The structural and dynamical effects induced by substrate-binding, the specific role of the conserved residues, and the near attack conformers of the Michaelis complex are discussed. Quantum chemical methods (HF/6-31G* and B3LYP/6-31G*) are also applied to study the hydrolysis reaction of N-methylazetidinone catalyzed by a monozinc system consisting of the side chains of the histidine residues (His86, His88, and His149) complexed with Zn-OH and the side chains of Asp90 and His210. From this model system, we built molecular-mechanics representations of the prereactive complex and transition state configurations docked into the active site. Linear-scaling semiempirical calculations coupled with a continuum solvent model were then performed on these static models. We propose that the experimental rate data for the B. cereus enzyme is compatible with a one-step mechanism for the hydrolysis of beta-lactam substrates in which His210 acts as a proton donor.

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