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在鸡DT40细胞系和人TK6细胞系中,四种核酸酶CtIP、Dna2、Exo1和Mre11对通过同源重组进行DNA双链断裂修复初始步骤的相对贡献。

Relative contribution of four nucleases, CtIP, Dna2, Exo1 and Mre11, to the initial step of DNA double-strand break repair by homologous recombination in both the chicken DT40 and human TK6 cell lines.

作者信息

Hoa Nguyen Ngoc, Akagawa Remi, Yamasaki Tomomi, Hirota Kouji, Sasa Kentaro, Natsume Toyoaki, Kobayashi Junya, Sakuma Tetsushi, Yamamoto Takashi, Komatsu Kenshi, Kanemaki Masato T, Pommier Yves, Takeda Shunichi, Sasanuma Hiroyuki

机构信息

Department of Radiation Genetics, Graduate School of Medicine, Kyoto University, Yoshida Konoe, Sakyo-ku, Kyoto, 606-8501, Japan.

Centre for Frontier Research, National Institute of Genetics, ROIS, Yata 1111, Mishima, Shizuoka, 411-8540, Japan.

出版信息

Genes Cells. 2015 Dec;20(12):1059-76. doi: 10.1111/gtc.12310. Epub 2015 Nov 2.

DOI:10.1111/gtc.12310
PMID:26525166
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7747012/
Abstract

Homologous recombination (HR) is initiated by double-strand break (DSB) resection, during which DSBs are processed by nucleases to generate 3' single-strand DNA. DSB resection is initiated by CtIP and Mre11 followed by long-range resection by Dna2 and Exo1 in Saccharomyces cerevisiae. To analyze the relative contribution of four nucleases, CtIP, Mre11, Dna2 and Exo1, to DSB resection, we disrupted genes encoding these nucleases in chicken DT40 cells. CtIP and Dna2 are required for DSB resection, whereas Exo1 is dispensable even in the absence of Dna2, which observation agrees with no developmental defect in Exo1-deficient mice. Despite the critical role of Mre11 in DSB resection in S. cerevisiae, loss of Mre11 only modestly impairs DSB resection in DT40 cells. To further test the role of CtIP and Mre11 in other species, we conditionally disrupted CtIP and MRE11 genes in the human TK6 B cell line. As with DT40 cells, CtIP contributes to DSB resection considerably more significantly than Mre11 in TK6 cells. Considering the critical role of Mre11 in HR, this study suggests that Mre11 is involved in a mechanism other than DSB resection. In summary, CtIP and Dna2 are sufficient for DSB resection to ensure efficient DSB repair by HR.

摘要

同源重组(HR)由双链断裂(DSB)切除引发,在此过程中,DSB由核酸酶处理以产生3'单链DNA。在酿酒酵母中,DSB切除由CtIP和Mre11启动,随后由Dna2和Exo1进行长距离切除。为了分析四种核酸酶CtIP、Mre11、Dna2和Exo1对DSB切除的相对贡献,我们在鸡DT40细胞中破坏了编码这些核酸酶的基因。DSB切除需要CtIP和Dna2,而即使在没有Dna2的情况下Exo1也是可有可无的,这一观察结果与Exo1缺陷小鼠无发育缺陷一致。尽管Mre11在酿酒酵母的DSB切除中起关键作用,但Mre11的缺失仅适度损害DT40细胞中的DSB切除。为了进一步测试CtIP和Mre11在其他物种中的作用,我们在人TK6 B细胞系中有条件地破坏了CtIP和MRE11基因。与DT40细胞一样,在TK6细胞中,CtIP对DSB切除的贡献比Mre11大得多。考虑到Mre11在HR中的关键作用,本研究表明Mre11参与了DSB切除以外的机制。总之,CtIP和Dna2足以进行DSB切除,以确保通过HR进行有效的DSB修复。

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Smarcal1 promotes double-strand-break repair by nonhomologous end-joining.Smarcal1通过非同源末端连接促进双链断裂修复。
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Mammalian Exo1 encodes both structural and catalytic functions that play distinct roles in essential biological processes.哺乳动物 Exo1 编码的结构和催化功能在基本的生物过程中发挥着不同的作用。
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