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RNA加工蛋白通过促进生成RPA包被的单链DNA来调节Mec1/ATR的激活。

RNA-processing proteins regulate Mec1/ATR activation by promoting generation of RPA-coated ssDNA.

作者信息

Manfrini Nicola, Trovesi Camilla, Wery Maxime, Martina Marina, Cesena Daniele, Descrimes Marc, Morillon Antonin, d'Adda di Fagagna Fabrizio, Longhese Maria Pia

机构信息

Dipartimento di Biotecnologie e Bioscienze, Università di Milano-Bicocca, Milan, Italy.

Institut Curie, CNRS UMR3244 Université Pierre et Marie Curie, Paris Cedex 05, France.

出版信息

EMBO Rep. 2015 Feb;16(2):221-31. doi: 10.15252/embr.201439458. Epub 2014 Dec 19.

DOI:10.15252/embr.201439458
PMID:25527408
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4328749/
Abstract

Eukaryotic cells respond to DNA double-strand breaks (DSBs) by activating a checkpoint that depends on the protein kinases Tel1/ATM and Mec1/ATR. Mec1/ATR is activated by RPA-coated single-stranded DNA (ssDNA), which arises upon nucleolytic degradation (resection) of the DSB. Emerging evidences indicate that RNA-processing factors play critical, yet poorly understood, roles in genomic stability. Here, we provide evidence that the Saccharomyces cerevisiae RNA decay factors Xrn1, Rrp6 and Trf4 regulate Mec1/ATR activation by promoting generation of RPA-coated ssDNA. The lack of Xrn1 inhibits ssDNA generation at the DSB by preventing the loading of the MRX complex. By contrast, DSB resection is not affected in the absence of Rrp6 or Trf4, but their lack impairs the recruitment of RPA, and therefore of Mec1, to the DSB. Rrp6 and Trf4 inactivation affects neither Rad51/Rad52 association nor DSB repair by homologous recombination (HR), suggesting that full Mec1 activation requires higher amount of RPA-coated ssDNA than HR-mediated repair. Noteworthy, deep transcriptome analyses do not identify common misregulated gene expression that could explain the observed phenotypes. Our results provide a novel link between RNA processing and genome stability.

摘要

真核细胞通过激活一个依赖于蛋白激酶Tel1/ATM和Mec1/ATR的检查点来应对DNA双链断裂(DSB)。Mec1/ATR由RPA包被的单链DNA(ssDNA)激活,而这种单链DNA产生于DSB的核酸降解(切除)过程中。新出现的证据表明,RNA加工因子在基因组稳定性中发挥着关键作用,但人们对此了解甚少。在这里,我们提供证据表明,酿酒酵母RNA衰变因子Xrn1、Rrp6和Trf4通过促进RPA包被的ssDNA的生成来调节Mec1/ATR的激活。缺乏Xrn1会通过阻止MRX复合物的加载来抑制DSB处的ssDNA生成。相比之下,在缺乏Rrp6或Trf4的情况下,DSB切除不受影响,但它们的缺失会损害RPA以及因此Mec1向DSB的募集。Rrp6和Trf4失活既不影响Rad51/Rad52的结合,也不影响同源重组(HR)介导的DSB修复,这表明完全激活Mec1所需的RPA包被的ssDNA量比HR介导的修复所需的量更多。值得注意的是,深度转录组分析未发现可解释所观察到的表型的常见基因表达失调情况。我们的结果为RNA加工与基因组稳定性之间提供了一个新的联系。

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