定点DNA双链断裂处非同源末端连接、单链退火和基因转换的层次结构。

Hierarchy of nonhomologous end-joining, single-strand annealing and gene conversion at site-directed DNA double-strand breaks.

作者信息

Mansour Wael Y, Schumacher Sabine, Rosskopf Raphael, Rhein Tim, Schmidt-Petersen Filip, Gatzemeier Fruszina, Haag Friedrich, Borgmann Kerstin, Willers Henning, Dahm-Daphi Jochen

机构信息

Laboratory of Radiobiology & Experimental Radiation Oncology, Department of Radiotherapy and Radiation Oncology, University Medical School Hamburg-Eppendorf, Martinistrasse 52, D-20246 Hamburg, Germany.

出版信息

Nucleic Acids Res. 2008 Jul;36(12):4088-98. doi: 10.1093/nar/gkn347. Epub 2008 Jun 6.

DOI:10.1093/nar/gkn347

PMID:18539610

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2475611/

Abstract

In mammalian cells, DNA double-strand breaks (DSBs) are repaired by three pathways, nonhomologous end-joining (NHEJ), gene conversion (GC) and single-strand annealing (SSA). These pathways are distinct with regard to repair efficiency and mutagenic potential and must be tightly controlled to preserve viability and genomic stability. Here, we employed chromosomal reporter constructs to characterize the hierarchy of NHEJ, GC and SSA at a single I-SceI-induced DSB in Chinese hamster ovary cells. We discovered that the use of GC and SSA was increased by 6- to 8-fold upon loss of Ku80 function, suggesting that NHEJ is dominant over the other two pathways. However, NHEJ efficiency was not altered if GC was impaired by Rad51 knockdown. Interestingly, when SSA was made available as an alternative mode for DSB repair, loss of Rad51 function led to an increase in SSA activity at the expense of NHEJ, implying that Rad51 may indirectly promote NHEJ by limiting SSA. We conclude that a repair hierarchy exists to limit the access of the most mutagenic mechanism, SSA, to the break site. Furthermore, the cellular choice of repair pathways is reversible and can be influenced at the level of effector proteins such as Ku80 or Rad51.

摘要

在哺乳动物细胞中，DNA双链断裂（DSB）通过三种途径进行修复，即非同源末端连接（NHEJ）、基因转换（GC）和单链退火（SSA）。这些途径在修复效率和诱变潜力方面有所不同，必须受到严格控制以维持细胞活力和基因组稳定性。在此，我们利用染色体报告构建体来表征中国仓鼠卵巢细胞中单个I-SceI诱导的DSB处NHEJ、GC和SSA的层次结构。我们发现，Ku80功能缺失后，GC和SSA的使用增加了6至8倍，这表明NHEJ在其他两种途径中占主导地位。然而，如果通过敲低Rad51来损害GC，NHEJ效率不会改变。有趣的是，当SSA成为DSB修复的替代模式时，Rad51功能缺失导致SSA活性增加，而NHEJ活性降低，这意味着Rad51可能通过限制SSA间接促进NHEJ。我们得出结论，存在一种修复层次结构，以限制最具诱变作用的机制SSA接近断裂位点。此外，细胞对修复途径的选择是可逆的，并且可以在效应蛋白如Ku80或Rad51的水平上受到影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2b6b/2475611/27f0812dbdf9/gkn347f1.jpg

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定点DNA双链断裂处非同源末端连接、单链退火和基因转换的层次结构。

Hierarchy of nonhomologous end-joining, single-strand annealing and gene conversion at site-directed DNA double-strand breaks.

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