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来自耐辐射球菌的X家族DNA聚合酶呈现出一种非标准的伸展构象。

The family X DNA polymerase from Deinococcus radiodurans adopts a non-standard extended conformation.

作者信息

Leulliot Nicolas, Cladière Lionel, Lecointe François, Durand Dominique, Hübscher Ulrich, van Tilbeurgh Herman

机构信息

Institut de Biochimie et de Biophysique Moléculaire et Cellulaire, Université de Paris-Sud, CNRS, UMR8619, IFR115, Bât 430, Orsay 91405 Cedex, France.

出版信息

J Biol Chem. 2009 May 1;284(18):11992-9. doi: 10.1074/jbc.M809342200. Epub 2009 Feb 26.

DOI:10.1074/jbc.M809342200
PMID:19251692
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2673268/
Abstract

Deinococcus radiodurans is an extraordinarily radioresistant bacterium that is able to repair hundreds of radiation-induced double-stranded DNA breaks. One of the players in this pathway is an X family DNA polymerase (PolX(Dr)). Deletion of PolX(Dr) has been shown to decrease the rate of repair of double-stranded DNA breaks and increase cell sensitivity to gamma-rays. A 3'-->5' exonuclease activity that stops cutting close to DNA loops has also been demonstrated. The present crystal structure of PolX(Dr) solved at 2.46-A resolution reveals that PolX(Dr) has a novel extended conformation in stark contrast to the closed "right hand" conformation commonly observed for DNA polymerases. This extended conformation is stabilized by the C-terminal PHP domain, whose putative nuclease active site is obstructed by its interaction with the polymerase domain. The overall conformation and the presence of non standard residues in the active site of the polymerase X domain makes PolX(Dr) the founding member of a novel class of polymerases involved in DNA repair but whose detailed mode of action still remains enigmatic.

摘要

耐辐射球菌是一种具有极强辐射抗性的细菌,能够修复数百个辐射诱导产生的双链DNA断裂。该修复途径中的一个关键因子是X家族DNA聚合酶(PolX(Dr))。研究表明,缺失PolX(Dr)会降低双链DNA断裂的修复速率,并增加细胞对γ射线的敏感性。此外,还证实了一种3'→5'核酸外切酶活性,该活性在靠近DNA环处停止切割。目前解析出的分辨率为2.46埃的PolX(Dr)晶体结构显示,PolX(Dr)具有一种新颖的延伸构象,这与DNA聚合酶常见的封闭“右手”构象形成鲜明对比。这种延伸构象由C末端PHP结构域稳定,其假定的核酸酶活性位点因与聚合酶结构域的相互作用而受阻。聚合酶X结构域活性位点的整体构象以及非标准残基的存在,使PolX(Dr)成为参与DNA修复的一类新型聚合酶的创始成员,但其详细作用模式仍不明确。

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