量子力学建模：理解酶反应的工具。

Quantum mechanical modeling: a tool for the understanding of enzyme reactions.

机构信息

Laboratory of Structural Chemistry and Biology and HAS-ELTE Protein Modeling Group, Eötvös Loránd University, Pázmány Péter St. 1A, Budapest H-1117, Hungary.

Department of Inorganic and Analytical Chemistry, Budapest University of Technology and Economics, Gellért tér 4, Budapest H-1111, Hungary.

出版信息

Biomolecules. 2013 Sep 23;3(3):662-702. doi: 10.3390/biom3030662.

DOI:10.3390/biom3030662

PMID:24970187

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4030948/

Abstract

Most enzyme reactions involve formation and cleavage of covalent bonds, while electrostatic effects, as well as dynamics of the active site and surrounding protein regions, may also be crucial. Accordingly, special computational methods are needed to provide an adequate description, which combine quantum mechanics for the reactive region with molecular mechanics and molecular dynamics describing the environment and dynamic effects, respectively. In this review we intend to give an overview to non-specialists on various enzyme models as well as established computational methods and describe applications to some specific cases. For the treatment of various enzyme mechanisms, special approaches are often needed to obtain results, which adequately refer to experimental data. As a result of the spectacular progress in the last two decades, most enzyme reactions can be quite precisely treated by various computational methods.

摘要

大多数酶反应涉及共价键的形成和断裂，而静电效应以及活性位点和周围蛋白质区域的动力学也可能至关重要。因此，需要特殊的计算方法来提供充分的描述，这些方法将反应区域的量子力学与分别描述环境和动态效应的分子力学和分子动力学相结合。在这篇综述中，我们打算向非专业人士介绍各种酶模型以及已建立的计算方法，并描述它们在一些特定案例中的应用。对于处理各种酶机制，通常需要特殊的方法来获得与实验数据充分相关的结果。由于在过去二十年中取得了惊人的进展，大多数酶反应都可以通过各种计算方法相当精确地处理。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4b17/4030948/bde561b1b9b0/biomolecules-03-00662-g001.jpg

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量子力学建模：理解酶反应的工具。

Quantum mechanical modeling: a tool for the understanding of enzyme reactions.

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