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尿素分解的酶促催化:消除反应还是水解反应?

Enzymatic catalysis of urea decomposition: elimination or hydrolysis?

作者信息

Estiu Guillermina, Merz Kenneth M

机构信息

Department of Chemistry, The Pennsylvania State University, 152 Davey Laboratory, University Park, Pennsylvania 16802-6300, USA.

出版信息

J Am Chem Soc. 2004 Sep 29;126(38):11832-42. doi: 10.1021/ja047934y.

Abstract

We present a high-level quantum chemical study of possible reaction mechanisms associated with the catalytic decomposition of urea by a bioinorganic mimetic of the dinickel active site of urease. We chose the phthalazine-dinickel complexes of Lippard and co-workers, because these mimetics have been shown to hydrolytically degrade urea. High-level quantum chemical methodologies were utilized to identify stable intermediates and transition-state structures along several possible reaction pathways. The computed results were then used to further analyze what may occur in the active site of urease. Valuable information on the latter has been extracted from experimental data, computational approaches, and unpublished molecular dynamics simulations. On the basis of these comparative studies, we propose that both the elimination and hydrolytic pathways may compete for urea decomposition in the active site of urease.

摘要

我们展示了一项关于与脲酶二镍活性位点的生物无机模拟物催化尿素分解相关的可能反应机制的高级量子化学研究。我们选择了利帕德及其同事的酞嗪 - 二镍配合物,因为这些模拟物已被证明能水解降解尿素。利用高级量子化学方法来确定沿着几种可能反应途径的稳定中间体和过渡态结构。然后将计算结果用于进一步分析脲酶活性位点可能发生的情况。关于后者的有价值信息已从实验数据、计算方法和未发表的分子动力学模拟中提取出来。基于这些比较研究,我们提出消除途径和水解途径可能在脲酶活性位点竞争尿素分解。

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