转录耦联修复：从细胞到单分子再到细胞。

Transcription-Coupled Repair: From Cells to Single Molecules and Back Again.

机构信息

Institut Jacques Monod, CNRS and Université Paris 7, Paris Université, Paris, France; Institut de Biologie de l'Ecole normale supérieure, PSL Université, INSERM, CNRS, Paris, France; Equipe Labellisée de la Ligue Nationale Contre le Cancer, Paris, France; Horizons 2020 Innovative Training Network, DNAREPAIRMAN, Paris, France.

Institut Jacques Monod, CNRS and Université Paris 7, Paris Université, Paris, France; Institut de Biologie de l'Ecole normale supérieure, PSL Université, INSERM, CNRS, Paris, France; Horizons 2020 Innovative Training Network, DNAREPAIRMAN, Paris, France.

出版信息

J Mol Biol. 2019 Sep 20;431(20):4093-4102. doi: 10.1016/j.jmb.2019.05.040. Epub 2019 Jun 6.

DOI:10.1016/j.jmb.2019.05.040

PMID:31175845

Abstract

Transcription-coupled repair is mediated by the Mfd protein. TCR is defined as the preferential repair of DNA lesions in the transcribed strand of actively transcribed genes, and is opposed to the strand-aspecific global genome repair. The Mfd protein mediates TCR by binding to and displacing RNA polymerase, which is stalled at a DNA lesion on the transcribed strand of DNA, then recruiting UvrA and UvrB. The repair cascade results in the recruitment of, and DNA excision by, UvrC; removal of the damage-bearing oligonucleotide by UvrD; "filling-in" of the DNA by DNA polymerase; and sealing of the strands by DNA ligase. The gene required for Mfd was originally identified as a gene needed for the "mutation frequency decline" phenotype in which the repair of certain UV-induced lesions in the transcribed strand of tRNA genes is increased when cells are forced to delay replication immediately following UV exposure. This review will focus on the genetics that led to the discovery of the Mfd gene; summarize the subsequent biochemical, structural and single-molecule interrogations of the Mfd protein; and explore the more recent findings of Mfd in mutagenesis.

摘要

转录偶联修复由 Mfd 蛋白介导。TCR 被定义为优先修复活跃转录基因的转录链中的 DNA 损伤，与链非特异性全基因组修复相反。Mfd 蛋白通过结合并取代在 DNA 转录链上 DNA 损伤处停滞的 RNA 聚合酶来介导 TCR，然后招募 UvrA 和 UvrB。修复级联反应导致 UvrC 的募集和 DNA 切除；UvrD 去除带有损伤的寡核苷酸；DNA 聚合酶“填充”DNA；DNA 连接酶密封链。最初鉴定出 Mfd 所需的基因是一种在“突变频率下降”表型中需要的基因，其中当细胞在 UV 暴露后立即被迫延迟复制时，tRNA 基因转录链中某些 UV 诱导损伤的修复增加。这篇综述将重点介绍导致发现 Mfd 基因的遗传学；总结随后对 Mfd 蛋白的生化、结构和单分子研究；并探讨 Mfd 在诱变中的最新发现。

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转录耦联修复：从细胞到单分子再到细胞。

Transcription-Coupled Repair: From Cells to Single Molecules and Back Again.

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