通过 RNase H2 和 Srs2-Exo1 机制避免核苷酸诱导的突变。

Avoidance of ribonucleotide-induced mutations by RNase H2 and Srs2-Exo1 mechanisms.

机构信息

1] Department of Biochemistry and Molecular Pharmacology, New York University School of Medicine, New York, New York 10016, USA [2].

1] Molecular Biophysics and Biochemistry, Yale University School of Medicine, 333 Cedar Street, New Haven, Connecticut 06520, USA [2].

出版信息

Nature. 2014 Jul 10;511(7508):251-4. doi: 10.1038/nature13292. Epub 2014 Jun 1.

DOI:10.1038/nature13292

PMID:24896181

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4140095/

Abstract

Srs2 helicase is known to dismantle nucleofilaments of Rad51 recombinase to prevent spurious recombination events and unwind trinucleotide sequences that are prone to hairpin formation. Here we document a new, unexpected genome maintenance role of Srs2 in the suppression of mutations arising from mis-insertion of ribonucleoside monophosphates during DNA replication. In cells lacking RNase H2, Srs2 unwinds DNA from the 5' side of a nick generated by DNA topoisomerase I at a ribonucleoside monophosphate residue. In addition, Srs2 interacts with and enhances the activity of the nuclease Exo1, to generate a DNA gap in preparation for repair. Srs2-Exo1 thus functions in a new pathway of nick processing-gap filling that mediates tolerance of ribonucleoside monophosphates in the genome. Our results have implications for understanding the basis of Aicardi-Goutières syndrome, which stems from inactivation of the human RNase H2 complex.

摘要

Srs2 解旋酶已知能够拆除 Rad51 重组酶的核丝，以防止虚假重组事件的发生，并解开易形成发夹结构的三核苷酸序列。在这里，我们记录了 Srs2 在抑制 DNA 复制过程中核糖核苷酸单磷酸错误插入引起的突变方面的一个新的、意想不到的基因组维护作用。在缺乏 RNase H2 的细胞中，Srs2 从 DNA 拓扑异构酶 I 在核糖核苷酸单磷酸残基上产生的切口的 5'侧解开 DNA。此外，Srs2 与核酸外切酶 1 相互作用并增强其活性，在修复前产生 DNA 缺口。因此，Srs2-Exo1 在介导基因组中核糖核苷酸单磷酸耐受的新的切口处理-缺口填充途径中发挥作用。我们的研究结果对于理解 Aicardi-Goutières 综合征的基础具有重要意义，该综合征源于人类 RNase H2 复合物的失活。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/359a/4140095/9c765d7d0651/nihms580842f1.jpg

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通过 RNase H2 和 Srs2-Exo1 机制避免核苷酸诱导的突变。

Avoidance of ribonucleotide-induced mutations by RNase H2 and Srs2-Exo1 mechanisms.

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