基于量子力学/分子力学计算对一种芪裂解加氧酶NOV1的机理洞察

Mechanistic Insights into a Stibene Cleavage Oxygenase NOV1 from Quantum Mechanical/Molecular Mechanical Calculations.

作者信息

Lu Jiarui, Lai Wenzhen

机构信息

Department of Chemistry Renmin University of China No. 59 Zhongguancun Street, Haidian District Beijing 100872 P. R. China.

出版信息

ChemistryOpen. 2019 Feb 20;8(2):228-235. doi: 10.1002/open.201800259. eCollection 2019 Feb.

DOI:10.1002/open.201800259

PMID:30828510

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6382310/

Abstract

NOV1, a stilbene cleavage oxygenase, catalyzes the cleavage of the central double bond of stilbenes to two phenolic aldehydes, using a 4-His Fe(II) center and dioxygen. Herein, we use in-protein quantum mechanical/molecular mechanical (QM/MM) calculations to elucidate the reaction mechanism of the central double bond cleavage of phytoalexin resveratrol by NOV1. Our results showed that the oxygen molecule prefers to bind to the iron center in a side-on fashion, as suggested from the experiment. The quintet Fe-O complex with the side-on superoxo antiferromagnetic coupled to the resveratrol radical is identified as the reactive oxygen species. The QM/MM results support the dioxygenase mechanism involving a dioxetane intermediate with a rate-limiting barrier of 10.0 kcal mol. The alternative pathway through an epoxide intermediate is ruled out due to a larger rate-limiting barrier (26.8 kcal mol). These findings provide important insight into the catalytic mechanism of carotenoid cleavage oxygenases and also the dioxygen activation of non-heme enzymes.

摘要

NOV1是一种芪裂解加氧酶，利用一个4-组氨酸铁（II）中心和双原子氧，催化芪的中心双键裂解为两个酚醛。在此，我们使用蛋白质内量子力学/分子力学（QM/MM）计算来阐明NOV1对植物抗毒素白藜芦醇中心双键裂解的反应机制。我们的结果表明，正如实验所暗示的，氧分子倾向于以侧基方式与铁中心结合。具有与白藜芦醇自由基反铁磁耦合的侧基超氧的五重态Fe-O络合物被确定为活性氧物种。QM/MM结果支持双加氧酶机制，该机制涉及一个二氧杂环丁烷中间体，限速势垒为10.0千卡·摩尔。由于较大的限速势垒（26.8千卡·摩尔），排除了通过环氧化物中间体的替代途径。这些发现为类胡萝卜素裂解加氧酶的催化机制以及非血红素酶的双原子氧活化提供了重要的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2d95/6382310/e994588b3e7b/OPEN-8-228-g009.jpg

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基于量子力学/分子力学计算对一种芪裂解加氧酶NOV1的机理洞察

Mechanistic Insights into a Stibene Cleavage Oxygenase NOV1 from Quantum Mechanical/Molecular Mechanical Calculations.

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