通过 XPG 相关核酸内切酶启动 DNA 损伤反应。

Initiation of DNA damage responses through XPG-related nucleases.

机构信息

Department of Oncological Sciences, The Graduate School of Biological Sciences, Mount Sinai School of Medicine, New York, NY 10029, USA.

出版信息

EMBO J. 2013 Jan 23;32(2):290-302. doi: 10.1038/emboj.2012.322. Epub 2012 Dec 4.

DOI:10.1038/emboj.2012.322

PMID:23211746

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3553381/

Abstract

Lesion-specific enzymes repair different forms of DNA damage, yet all lesions elicit the same checkpoint response. The common intermediate required to mount a checkpoint response is thought to be single-stranded DNA (ssDNA), coated by replication protein A (RPA) and containing a primer-template junction. To identify factors important for initiating the checkpoint response, we screened for genes that, when overexpressed, could amplify a checkpoint signal to a weak allele of chk1 in fission yeast. We identified Ast1, a novel member of the XPG-related family of endo/exonucleases. Ast1 promotes checkpoint activation caused by the absence of the other XPG-related nucleases, Exo1 and Rad2, the homologue of Fen1. Each nuclease is recruited to DSBs, and promotes the formation of ssDNA for checkpoint activation and recombinational repair. For Rad2 and Exo1, this is independent of their S-phase role in Okazaki fragment processing. This XPG-related pathway is distinct from MRN-dependent responses, and each enzyme is critical for damage resistance in MRN mutants. Thus, multiple nucleases collaborate to initiate DNA damage responses, highlighting the importance of these responses to cellular fitness.

摘要

特异性酶修复不同形式的 DNA 损伤，但所有损伤都会引发相同的检查点反应。启动检查点反应所需的共同中间产物被认为是单链 DNA（ssDNA），由复制蛋白 A（RPA）包裹，并包含引物-模板连接。为了鉴定对起始检查点反应重要的因素，我们筛选了在裂殖酵母中过表达时可以增强弱等位基因 chk1 检查点信号的基因。我们鉴定了 Ast1，这是内切核酸酶/外切核酸酶 XPG 相关家族的一个新成员。Ast1 促进了由其他 XPG 相关核酶 Exo1 和 Rad2 缺失引起的检查点激活，Rad2 是 Fen1 的同源物。每种核酸酶都被招募到 DSB 处，并促进 ssDNA 的形成，以激活检查点并进行重组修复。对于 Rad2 和 Exo1，这与其在冈崎片段加工中的 S 期作用无关。这个 XPG 相关途径与 MRN 依赖性反应不同，并且每种酶对于 MRN 突变体的抗损伤性都是至关重要的。因此，多种核酸酶协同作用以启动 DNA 损伤反应，凸显了这些反应对细胞适应性的重要性。

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