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Loss of enzyme activity during turnover of the Bacillus cereus β-lactamase catalysed hydrolysis of β-lactams due to loss of zinc ion

Badarau, Adriana and Page, Michael I. (2008) Loss of enzyme activity during turnover of the Bacillus cereus β-lactamase catalysed hydrolysis of β-lactams due to loss of zinc ion. JBIC Journal of Biological Inorganic Chemistry, 13 (6). pp. 919-928. ISSN 09498257

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Abstract

Metallo-β-lactamases are zinc-ion-dependent and are known to exist either as mononuclear or as dinuclear enzymes. The kinetics and mechanism of hydrolysis of the native zinc Bacillus cereus metallo-β-lactamase (BcII) have been investigated under pre-steady-state conditions at different pHs and zinc-ion concentrations. Biphasic kinetics are observed for the hydrolysis of cefuroxime and benzylpenicillin with submicromolar concentrations of enzyme and zinc. The initial burst of product formation far exceeds the concentration of enzyme and the subsequent slower rate of hydrolysis is attributed to a branched kinetic pathway. The pH and metal-ion dependence of the microscopic rate constants of this branching were determined, from which it is concluded that two enzyme species with different metal-to-enzyme stoichiometries are formed during catalytic turnover. The dizinc enzyme is responsible for the fast route but during the catalytic cycle it slowly loses the less tightly bound zinc ion via the branching route to give an inactive monozinc enzyme; the latter is only catalytic following the uptake of a second zinc ion. The rate constant for product formation from the dinuclear enzyme and the branching rate constant show a sigmoidal dependence on pH indicative of important ionizing groups with pK as of 9.0 ± 0.1 and 8.2 ± 0.1, respectively. The rate constant for the regeneration of enzyme activity depends on zinc-ion concentration. This unusual behaviour is attributed to an intrinsic property of metallo hydrolytic enzymes that depend on a metal bound water both as a ligand for the second metal ion and as the nucleophile which is consumed during hydrolysis of the substrate and so has to be replaced to maintain the catalytic cycle.

Item Type: Article
Subjects: Q Science > Q Science (General)
Q Science > QD Chemistry
Schools: School of Applied Sciences
School of Applied Sciences > Biomolecular Sciences Research Centre
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Depositing User: Graham Stone
Date Deposited: 13 Feb 2009 13:37
Last Modified: 13 Feb 2009 13:37
URI: http://eprints.hud.ac.uk/id/eprint/3381

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