Abstract

As members of the α/β-hydrolase superfamily, Meta-cleavage product (MCP) hydrolases generally utilize a Ser-His-Asp catalytic triad to hydrolyze the cleavage of CC bond during the aerobic catabolism of aromatic compounds by bacteria. BphD is one kind of MCP hydrolase that catalyzes the hydrolysis of 2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoic acid (HOPDA) to 2-hydroxypenta-2,4-dienoic acid (HPD) and benzoate. In this article, a combined quantum mechanics and molecule mechanics (QM/MM) approach has been employed to explore the reaction mechanism of BphD from Burkholderia xenovorans LB400. On the basis of the recently resolved crystal structures, three computational models have been constructed. Our calculation results reveal that BphD utilizes a water-assisted nucleophilic mechanism, which contains acylation and deacylation stages. In acylation reaction, an active site water molecule assists the proton transfer from Ser112 to the carbanion intermediate (substrate) by forming hydrogen bonds with Ser112 and His265, and this proton transfer is in concert with the nucleophilic attack of deprotonated Ser112 on the C6-carbonyl of substrate to form the acylated intermediate. In deacylation, the Asp237-His265 dyad acts as a general base to activate the hydrolytic water, whose nucleophilic attack leads to the collapses of acyl-enzyme intermediate. The acylation and deacylation process correspond to the highest energy barriers of 21.0 and 23.9kcal/mol, respectively. During the catalytic reaction, the active site water and Asp237-His265 dyad play an important role for each elementary steps.

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