DNA polymerases in nonhomologous end joining: Are there any benefits to standing out from the crowd?

RamsdenD.A.; AsagoshiK.

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DNA polymerases in nonhomologous end joining: Are there any benefits to standing out from the crowd?

机译：非同源末端连接中的DNA聚合酶：从人群中脱颖而出有什么好处吗？

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Chromosome breaks, often with damaged or missing DNA flanking the break site, are an important threat to genome stability. They are repaired in vertebrates primarily by nonhomologous end joining (NHEJ). NHEJ is unique among the major DNA repair pathways in that a continuous template cannot be used by DNA polymerases to instruct replacement of damaged or lost DNA. Nevertheless, at least 3 out of the 17 mammalian DNA polymerases are specifically employed by NHEJ. Biochemical and structural studies are further revealing how each of the polymerases employed by NHEJ possesses distinct and sophisticated means to overcome the barriers this pathway presents to polymerase activity. Still unclear, though, is how the resulting network of overlapping and nonoverlapping polymerase activities contributes to repair in cells.

机译：染色体断裂通常是在断裂位点侧翼的DNA受损或缺失，是对基因组稳定性的重要威胁。它们主要通过非同源末端连接（NHEJ）在脊椎动物中修复。 NHEJ在主要的DNA修复途径中是独特的，因为DNA聚合酶不能使用连续的模板来指示替换受损或丢失的DNA。尽管如此，NHEJ专门采用了17种哺乳动物DNA聚合酶中的至少3种。生化和结构研究进一步揭示了NHEJ所采用的每种聚合酶如何具有独特而复杂的方法来克服该途径对聚合酶活性造成的障碍。但是，仍然不清楚的是，重叠和不重叠的聚合酶活性所形成的网络如何促进细胞修复。

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《Environmental and molecular mutagenesis.》 |2012年第9期|共11页
作者
RamsdenD.A.; AsagoshiK.;
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正文语种 eng
中图分类医学遗传学;
关键词
Double strand break repair; NHEJ; Pol X;

机译：双链断裂修复;NHEJ;Pol X;

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1. DNA polymerases in nonhomologous end joining: Are there any benefits to standing out from the crowd? [J] . RamsdenD.A., AsagoshiK. Environmental and molecular mutagenesis. . 2012,第9期

机译：非同源末端连接中的DNA聚合酶：从人群中脱颖而出有什么好处吗？
2. Requirement for XLF/Cernunnos in alignment-based gap filling by DNA polymerases and o for nonhomologous end joining in human whole-cell extracts. [J] . Akopiants Konstantin, Zhou Rui-Zhe, Mohapatra Susovan, Nucleic Acids Research . 2009,第12期

机译：XLF / Cernunnos在基于DNA聚合酶的基于比对的缺口填补中的要求，以及对人类全细胞提取物中非同源末端连接的要求。
3. Requirement for XLF/Cernunnos in alignment-based gap filling by DNA polymerases λ and μ for nonhomologous end joining in human whole-cell extracts [J] . David J. Chen, Jean-Pierre de Villartay, Konstantin Akopiants, Nucleic acids research . 2009,第12期

机译：DNA聚合酶λ和μ在基于比对的缺口填充中对XLF / Cernunnos的要求，用于人类全细胞提取物中的非同源末端连接
4. Cell-free incorporation of photo-crosslinkable p-benzoyl-L-phenylalanine into the polymerase subunits α and ε of Escherichia coli DNA polymerase III [C] . Kiyoshi Ozawa, Gottfried Otting, Nicholas E. Dixon Incorporating of the Australian Society for Biochemistry and Molecular Biology Combio . 2009

机译：无细胞掺入光交联的p-苯甲酰基-1-苯丙氨酸进入聚合酶亚基α和ε的大肠杆菌DNA聚合酶III
5. Role of DNA polymerase lambda, XRCC4, and DNA ligase IV in alignment-based gap-filling of nonhomologous end joining. [D] . Lee, Jae Wan. 2003

机译：DNA聚合酶lambda，XRCC4和DNA连接酶IV在基于序列的非同源末端连接的缺口填充中的作用。
6. Requirement for XLF/Cernunnos in alignment-based gap filling by DNA polymerases λ and μ for nonhomologous end joining in human whole-cell extracts [O] . Konstantin Akopiants, Rui-Zhe Zhou, Susovan Mohapatra, 2009

机译：DNA聚合酶λ和μ在基于比对的缺口填充中对XLF / Cernunnos的要求用于人类全细胞提取物中的非同源末端连接
7. Implication of DNA Polymerase in Alignment-based Gap Filling for Nonhomologous DNA End Joining in Human Nuclear Extracts* [O] . 2003

机译：DNa聚合酶在人类核提取物非同源DNa末端连接的基于比对的间隙填充中的意义*

DNA polymerases in nonhomologous end joining: Are there any benefits to standing out from the crowd?

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