DNA损伤耐受机制。

Mechanism of DNA damage tolerance.

作者信息

Bi Xin

机构信息

Xin Bi, Department of Biology, University of Rochester, Rochester, NY 14627, United States.

出版信息

World J Biol Chem. 2015 Aug 26;6(3):48-56. doi: 10.4331/wjbc.v6.i3.48.

DOI:10.4331/wjbc.v6.i3.48

PMID:26322163

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4549768/

Abstract

DNA damage may compromise genome integrity and lead to cell death. Cells have evolved a variety of processes to respond to DNA damage including damage repair and tolerance mechanisms, as well as damage checkpoints. The DNA damage tolerance (DDT) pathway promotes the bypass of single-stranded DNA lesions encountered by DNA polymerases during DNA replication. This prevents the stalling of DNA replication. Two mechanistically distinct DDT branches have been characterized. One is translesion synthesis (TLS) in which a replicative DNA polymerase is temporarily replaced by a specialized TLS polymerase that has the ability to replicate across DNA lesions. TLS is mechanistically simple and straightforward, but it is intrinsically error-prone. The other is the error-free template switching (TS) mechanism in which the stalled nascent strand switches from the damaged template to the undamaged newly synthesized sister strand for extension past the lesion. Error-free TS is a complex but preferable process for bypassing DNA lesions. However, our current understanding of this pathway is sketchy. An increasing number of factors are being found to participate or regulate this important mechanism, which is the focus of this editorial.

摘要

DNA损伤可能会损害基因组完整性并导致细胞死亡。细胞已经进化出多种应对DNA损伤的过程，包括损伤修复和耐受机制以及损伤检查点。DNA损伤耐受（DDT）途径促进DNA聚合酶在DNA复制过程中遇到的单链DNA损伤的绕过。这可防止DNA复制停滞。已鉴定出两种机制不同的DDT分支。一种是跨损伤合成（TLS），其中复制性DNA聚合酶被能够跨越DNA损伤进行复制的特殊TLS聚合酶暂时取代。TLS在机制上简单直接，但本质上容易出错。另一种是无错误模板转换（TS）机制，其中停滞的新生链从受损模板切换到未受损的新合成姐妹链以延伸越过损伤部位。无错误TS是绕过DNA损伤的复杂但更可取的过程。然而，我们目前对该途径的理解并不完整。越来越多的因素被发现参与或调节这一重要机制，这是本社论的重点。

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