Senataxin 存在缺陷会导致神经退行性疾病眼动运动不能症 2 型,它位于转录和 DNA 损伤反应的交界处。
Senataxin, defective in the neurodegenerative disorder ataxia with oculomotor apraxia 2, lies at the interface of transcription and the DNA damage response.
机构信息
London Research Institute, Cancer Research UK, Clare Hall Laboratories, South Mimms, Herts, United Kingdom.
出版信息
Mol Cell Biol. 2013 Jan;33(2):406-17. doi: 10.1128/MCB.01195-12. Epub 2012 Nov 12.
Abstract
The neurodegenerative disorder ataxia with oculomotor apraxia 2 (AOA-2) is caused by defects in senataxin, a putative RNA/DNA helicase thought to be involved in the termination of transcription at RNA polymerase pause sites. RNA/DNA hybrids (R loops) that arise during transcription pausing lead to genome instability unless they are resolved efficiently. We found that senataxin forms distinct nuclear foci in S/G(2)-phase human cells and that the number of these foci increases in response to impaired DNA replication or DNA damage. Senataxin colocalizes with 53BP1, a key DNA damage response protein, and with other factors involved in DNA repair. Inhibition of transcription using α-amanitin, or the dissolution of R loops by transient expression of RNase H1, leads to the loss of senataxin foci. These results indicate that senataxin localizes to sites of collision between components of the replisome and the transcription apparatus and that it is targeted to R loops, where it plays an important role at the interface of transcription and the DNA damage response.
摘要
具有眼球运动不能症的神经退行性疾病 2 型(AOA-2)是由 senataxin 缺陷引起的,senataxin 是一种假定的 RNA/DNA 解旋酶,被认为参与 RNA 聚合酶暂停位点的转录终止。在转录暂停过程中产生的 RNA/DNA 杂交体(R 环)如果不能有效地解决,会导致基因组不稳定。我们发现 senataxin 在 S/G2 期的人类细胞中形成独特的核焦点,并且这些焦点的数量会响应受损的 DNA 复制或 DNA 损伤而增加。Senataxin 与关键的 DNA 损伤反应蛋白 53BP1 以及其他参与 DNA 修复的因子共定位。使用 α-鹅膏蕈碱抑制转录,或通过瞬时表达 RNase H1 溶解 R 环,会导致 senataxin 焦点的丢失。这些结果表明,senataxin 定位于复制体和转录装置组件之间碰撞的部位,并且它靶向 R 环,在转录和 DNA 损伤反应的界面处发挥重要作用。
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R loops: from transcription byproducts to threats to genome stability.R 环:从转录副产物到基因组稳定性的威胁。
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RNase H and multiple RNA biogenesis factors cooperate to prevent RNA:DNA hybrids from generating genome instability.核糖核酸酶 H 和多种 RNA 生物发生因子合作防止 RNA:DNA 杂交体产生基因组不稳定性。
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Collisions between replication and transcription complexes cause common fragile site instability at the longest human genes.复制和转录复合物之间的碰撞导致人类最长基因上常见的脆弱位点不稳定。
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R-loop-mediated genomic instability is caused by impairment of replication fork progression.R 环介导的基因组不稳定性是由复制叉推进受损引起的。
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H3K4 trimethylation by Set1 promotes efficient termination by the Nrd1-Nab3-Sen1 pathway.组蛋白 H3 第 4 位赖氨酸三甲基化由 Set1 酶促进 Nrd1-Nab3-Sen1 通路的有效终止。
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Human senataxin resolves RNA/DNA hybrids formed at transcriptional pause sites to promote Xrn2-dependent termination.人源 Senataxin 通过降解转录暂停位点形成的 RNA/DNA 杂交体促进 Xrn2 依赖的终止。
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Replication stress induces 53BP1-containing OPT domains in G1 cells.复制压力诱导 G1 期细胞中含有 53BP1 的 OPT 结构域。
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53BP1 nuclear bodies form around DNA lesions generated by mitotic transmission of chromosomes under replication stress.53BP1 核体围绕在复制压力下有丝分裂传递染色体产生的 DNA 损伤处形成。
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