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Essential constituents of the 3'-phosphoesterase domain of bacterial DNA ligase D, a nonhomologous end-joining enzyme.细菌DNA连接酶D(一种非同源末端连接酶)的3'-磷酸酯酶结构域的必需组成部分。
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A primer-dependent polymerase function of pseudomonas aeruginosa ATP-dependent DNA ligase (LigD).铜绿假单胞菌ATP依赖性DNA连接酶(LigD)的引物依赖性聚合酶功能。
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细菌DNA连接酶D聚合酶组分的原子结构与非同源末端连接功能

Atomic structure and nonhomologous end-joining function of the polymerase component of bacterial DNA ligase D.

作者信息

Zhu Hui, Nandakumar Jayakrishnan, Aniukwu Jideofor, Wang Li Kai, Glickman Michael S, Lima Christopher D, Shuman Stewart

机构信息

Molecular Biology Program, Sloan-Kettering Institute, New York, NY 10021, USA.

出版信息

Proc Natl Acad Sci U S A. 2006 Feb 7;103(6):1711-6. doi: 10.1073/pnas.0509083103. Epub 2006 Jan 30.

DOI:10.1073/pnas.0509083103
PMID:16446439
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1413644/
Abstract

DNA ligase D (LigD) is a large polyfunctional protein that participates in a recently discovered pathway of nonhomologous end-joining in bacteria. LigD consists of an ATP-dependent ligase domain fused to a polymerase domain (Pol) and a phosphoesterase module. The Pol activity is remarkable for its dependence on manganese, its ability to perform templated and nontemplated primer extension reactions, and its preference for adding ribonucleotides to blunt DNA ends. Here we report the 1.5-A crystal structure of the Pol domain of Pseudomonas LigD and its complexes with manganese and ATP/dATP substrates, which reveal a minimized polymerase with a two-metal mechanism and a fold similar to that of archaeal DNA primase. Mutational analysis highlights the functionally relevant atomic contacts in the active site. Although distinct nucleoside conformations and contacts for ATP versus dATP are observed in the cocrystals, the functional analysis suggests that the ATP-binding mode is the productive conformation for dNMP and rNMP incorporation. We find that a mutation of Mycobacterium LigD that uniquely ablates the polymerase activity results in increased fidelity of blunt-end double-strand break repair in vivo by virtue of eliminating nucleotide insertions at the recombination junctions. Thus, LigD Pol is a direct catalyst of mutagenic nonhomologous end-joining in vivo. Our studies underscore a previously uncharacterized role for the primase-like polymerase family in DNA repair.

摘要

DNA连接酶D(LigD)是一种大型多功能蛋白,参与细菌中最近发现的非同源末端连接途径。LigD由一个与聚合酶结构域(Pol)和一个磷酸酯酶模块融合的ATP依赖性连接酶结构域组成。Pol活性因其对锰的依赖性、进行模板化和非模板化引物延伸反应的能力以及在平端DNA末端添加核糖核苷酸的偏好而引人注目。在这里,我们报告了铜绿假单胞菌LigD的Pol结构域及其与锰和ATP/dATP底物的复合物的1.5埃晶体结构,这些结构揭示了一种具有双金属机制且折叠方式类似于古细菌DNA引发酶的最小化聚合酶。突变分析突出了活性位点中功能相关的原子接触。尽管在共晶体中观察到ATP与dATP的核苷构象和接触不同,但功能分析表明ATP结合模式是dNMP和rNMP掺入的有效构象。我们发现,结核分枝杆菌LigD的一个独特地消除聚合酶活性的突变,通过消除重组连接处的核苷酸插入,导致体内平端双链断裂修复的保真度提高。因此,LigD Pol是体内诱变非同源末端连接的直接催化剂。我们的研究强调了引发酶样聚合酶家族在DNA修复中以前未被表征的作用。