肌球蛋白马达中 ATP 酶催化的量子模拟研究进展。

Advances in quantum simulations of ATPase catalysis in the myosin motor.

机构信息

Research Center for Modeling and Simulation (RCMS), National University of Sciences and Technology (NUST), Sector H-12, Islamabad, Pakistan.

Interdisciplinary Center for Scientific Computing (IWR), Heidelberg University, Im Neuenheimer Feld 368, D-69120 Heidelberg, Germany.

出版信息

Curr Opin Struct Biol. 2015 Apr;31:115-23. doi: 10.1016/j.sbi.2015.04.006. Epub 2015 May 22.

DOI:10.1016/j.sbi.2015.04.006

PMID:26005996

Abstract

During its contraction cycle, the myosin motor catalyzes the hydrolysis of ATP. Several combined quantum/classical mechanics (QM/MM) studies of this step have been published, which substantially contributed to our thinking about the catalytic mechanism. The methodological difficulties encountered over the years in the simulation of this complex reaction are now understood: (a) Polarization of the protein peptide groups surrounding the highly charged ATP(4-) cannot be neglected. (b) Some unsuspected protein groups need to be treated QM. (c) Interactions with the γ-phosphate versus the β-phosphate favor a concurrent versus a sequential mechanism, respectively. Thus, these practical aspects strongly influence the computed mechanism, and should be considered when studying other catalyzed phosphor-ester hydrolysis reactions, such as in ATPases or GTPases.

摘要

在收缩周期中，肌球蛋白马达催化 ATP 的水解。已经发表了几项关于这一步骤的综合量子/经典力学（QM/MM）研究，这些研究极大地促进了我们对催化机制的思考。多年来，在模拟这种复杂反应时遇到的方法学困难现在已经得到理解：（a）不能忽略围绕高度带电荷的 ATP(4-)的蛋白质肽基团的极化。（b）需要用 QM 处理一些意想不到的蛋白质基团。（c）与 γ-磷酸基相比，β-磷酸基的相互作用分别有利于协同机制和顺序机制。因此，这些实际方面强烈影响计算出的机制，在研究其他催化的磷酯水解反应时，如在 ATP 酶或 GTP 酶中，应该考虑这些因素。

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肌球蛋白马达中 ATP 酶催化的量子模拟研究进展。

Advances in quantum simulations of ATPase catalysis in the myosin motor.

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