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本文引用的文献

1
Human exonuclease 1 connects nucleotide excision repair (NER) processing with checkpoint activation in response to UV irradiation.人类核酸外切酶 1 将核苷酸切除修复(NER)处理与紫外线照射反应中的检查点激活联系起来。
Proc Natl Acad Sci U S A. 2011 Aug 16;108(33):13647-52. doi: 10.1073/pnas.1108547108. Epub 2011 Aug 1.
2
UV-induced photolesions elicit ATR-kinase-dependent signaling in non-cycling cells through nucleotide excision repair-dependent and -independent pathways.紫外线诱导的光损伤通过核苷酸切除修复依赖和非依赖途径在非分裂细胞中引发 ATR 激酶依赖性信号转导。
J Cell Sci. 2011 Feb 1;124(Pt 3):435-46. doi: 10.1242/jcs.075325. Epub 2011 Jan 11.
3
Exo1 competes with repair synthesis, converts NER intermediates to long ssDNA gaps, and promotes checkpoint activation.Exo1 与修复合成竞争,将 NER 中间体转化为长单链 DNA 缺口,并促进检查点激活。
Mol Cell. 2010 Oct 8;40(1):50-62. doi: 10.1016/j.molcel.2010.09.004.
4
MMXD, a TFIIH-independent XPD-MMS19 protein complex involved in chromosome segregation.MMXD,一种与 TFIIH 无关的 XPD-MMS19 蛋白复合物,参与染色体分离。
Mol Cell. 2010 Aug 27;39(4):632-40. doi: 10.1016/j.molcel.2010.07.029.
5
Localization of xeroderma pigmentosum group A protein and replication protein A on damaged DNA in nucleotide excision repair.着色性干皮病 A 组蛋白和复制蛋白 A 在核苷酸切除修复中损伤 DNA 上的定位。
Nucleic Acids Res. 2010 Dec;38(22):8083-94. doi: 10.1093/nar/gkq649. Epub 2010 Aug 6.
6
Three DNA polymerases, recruited by different mechanisms, carry out NER repair synthesis in human cells.三种 DNA 聚合酶通过不同的机制被招募,在人体细胞中进行 NER 修复合成。
Mol Cell. 2010 Mar 12;37(5):714-27. doi: 10.1016/j.molcel.2010.02.009.
7
The TFIIH subunit p89 (XPB) localizes to the centrosome during mitosis.转录因子IIH亚基p89(XPB)在有丝分裂期间定位于中心体。
Cell Oncol. 2010;32(1-2):121-30. doi: 10.3233/CLO-2009-0509.
8
The long unwinding road: XPB and XPD helicases in damaged DNA opening.漫长的解开之路:XPB 和 XPD 解旋酶在损伤 DNA 中的开启作用。
Cell Cycle. 2010 Jan 1;9(1):90-6. doi: 10.4161/cc.9.1.10267. Epub 2010 Jan 5.
9
Ku and DNA-dependent protein kinase dynamic conformations and assembly regulate DNA binding and the initial non-homologous end joining complex.库和 DNA 依赖性蛋白激酶的动态构象和组装调节 DNA 结合和初始非同源末端连接复合物。
J Biol Chem. 2010 Jan 8;285(2):1414-23. doi: 10.1074/jbc.M109.065615. Epub 2009 Nov 5.
10
Differentiation driven changes in the dynamic organization of Basal transcription initiation.分化驱动的基础转录起始的动态组织变化。
PLoS Biol. 2009 Oct;7(10):e1000220. doi: 10.1371/journal.pbio.1000220. Epub 2009 Oct 20.

DNA 单链置换的产生与核苷酸切除修复功能缺陷有关。

Generation of DNA single-strand displacement by compromised nucleotide excision repair.

机构信息

Department of Cancer Biology, CNRS, IPBS, Toulouse, France.

出版信息

EMBO J. 2012 Aug 29;31(17):3550-63. doi: 10.1038/emboj.2012.193. Epub 2012 Aug 3.

DOI:10.1038/emboj.2012.193
PMID:22863773
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3433779/
Abstract

Nucleotide excision repair (NER) is a precisely coordinated process essential to avoid DNA damage-induced cellular malfunction and mutagenesis. Here, we investigate the mechanistic details and effects of the NER machinery when it is compromised by a pathologically significant mutation in a subunit of the repair/transcription factor TFIIH, namely XPD. In contrast to previous studies, we find that no single- or double-strand DNA breaks are produced at early time points after UV irradiation of cells bearing a specific XPD mutation, despite the presence of a clear histone H2AX phosphorylation (γH2AX) signal in the UV-exposed areas. We show that the observed γH2AX signal can be explained by the presence of longer single-strand gaps possibly generated by strand displacement. Our in vivo measurements also indicate a strongly reduced TFIIH-XPG binding that could promote single-strand displacement at the site of UV lesions. This finding not only highlights the crucial role of XPG's interactions with TFIIH for proper NER, but also sheds new light on how a faulty DNA repair process can induce extreme genomic instability in human patients.

摘要

核苷酸切除修复 (NER) 是一个精确协调的过程,对于避免 DNA 损伤引起的细胞功能障碍和突变至关重要。在这里,我们研究了当修复/转录因子 TFIIH 的一个亚基发生病理性显著突变时,NER 机制的详细机制和影响,该亚基即 XPD。与以前的研究不同,我们发现即使在 UV 暴露区域存在明显的组蛋白 H2AX 磷酸化 (γH2AX) 信号,在携带特定 XPD 突变的细胞中,UV 照射后早期不会产生单链或双链 DNA 断裂。我们表明,观察到的 γH2AX 信号可以通过可能由链置换产生的更长的单链间隙来解释。我们的体内测量还表明,TFIIH-XPG 结合的强度大大降低,这可能会促进 UV 损伤部位的单链置换。这一发现不仅突出了 XPG 与 TFIIH 的相互作用对于正确的 NER 的关键作用,还揭示了错误的 DNA 修复过程如何在人类患者中引起极端的基因组不稳定性。