是什么导致 RNA-DNA 杂交体损害基因组完整性？

What causes an RNA-DNA hybrid to compromise genome integrity?

机构信息

Centro Andaluz de Biología Molecular y Medicina Regenerativa (CABIMER), Universidad de Sevilla-CSIC-Universidad Pablo de Olavide, 41092, Seville, Spain.

出版信息

DNA Repair (Amst). 2019 Sep;81:102660. doi: 10.1016/j.dnarep.2019.102660. Epub 2019 Jul 8.

DOI:10.1016/j.dnarep.2019.102660

PMID:31302006

Abstract

Transcription is a source of genome instability that stimulates mutation and recombination. Part of the damage produced by transcription is mediated by R-loops, non-B DNA structures that normally form by the re-annealing of the nascent RNA with the template DNA outside the catalytic center of the RNA polymerase, displacing the non-template strand. Recent discoveries have revealed that R-loops might not be harmful by themselves. Instead, chromatin compaction triggered by these structures seems necessary, as deduced from the histone modifications frequently found associated with harmful R-loops. Remarkably, hybrids may also become harmful if stabilized by specific RNA binding proteins, one example of which is the yeast Yra1. We discuss here the possible mechanisms by which cells may stabilize R-loops and the consequences on transcription-replication conflicts and telomere homeostasis.

摘要

转录是基因组不稳定的一个来源，它会刺激突变和重组。转录产生的部分损伤是由 R 环介导的，R 环是非 B DNA 结构，通常通过新生 RNA 与 RNA 聚合酶催化中心外模板 DNA 的重新退火形成，从而取代非模板链。最近的发现表明，R 环本身可能没有危害。相反，由这些结构引发的染色质紧缩似乎是必要的，这可以从经常与有害 R 环相关联的组蛋白修饰中推断出来。值得注意的是，如果被特定的 RNA 结合蛋白稳定，杂交体也可能变得有害，酵母 Yra1 就是一个例子。我们在这里讨论了细胞可能稳定 R 环的可能机制，以及对转录-复制冲突和端粒动态平衡的影响。

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是什么导致 RNA-DNA 杂交体损害基因组完整性？

What causes an RNA-DNA hybrid to compromise genome integrity?

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