一核足矣：全局分析和计算研究揭示双金属离子核酸酶机制

One is enough: insights into the two-metal ion nuclease mechanism from global analysis and computational studies.

机构信息

Department of Chemistry & Biochemistry and The Center for Nanoscience, University of Missouri-St. Louis, One University Blvd., St. Louis, MO 63121, USA.

出版信息

Metallomics. 2010 Sep;2(9):609-20. doi: 10.1039/c0mt00013b. Epub 2010 Aug 6.

DOI:10.1039/c0mt00013b

PMID:21072352

Abstract

The mechanistic details of metallonuclease reactions, typically supported by Mg(II), have a long and contentious history. Two-metal ion mechanisms have enjoyed much favor, based largely in the multitude of X-ray crystal structures of these enzymes with more than one metal ion per active site. Most recently, this mechanism has come under challenge. Reviewed herein are the applications of different experimental strategies that collectively support a mechanism in which only one metal ion is necessary for nucleic acid hydrolysis. Based on global kinetic analysis, analysis of reactions in which the nonsupportive Ca(ii) is added, and a number of computational approaches, secondary sites are proposed to either be occupied by activity-modulating metal ions or occupied in turn by a single metal that changes position during the course of the reaction.

摘要

金属核酸酶反应的机制细节，通常由 Mg(II) 支持，有着悠久而有争议的历史。双金属离子机制得到了广泛的支持，主要基于这些酶的大量 X 射线晶体结构，每个活性位点都有不止一个金属离子。最近，这种机制受到了挑战。本文综述了不同实验策略的应用，这些策略共同支持一种机制，即只有一个金属离子是核酸水解所必需的。基于全局动力学分析、加入非支持性 Ca(ii) 的反应分析以及一些计算方法，提出了次级位点要么被活性调节金属离子占据，要么被单个金属离子占据，该金属离子在反应过程中改变位置。

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一核足矣：全局分析和计算研究揭示双金属离子核酸酶机制

One is enough: insights into the two-metal ion nuclease mechanism from global analysis and computational studies.

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