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Rad51/RecA重组酶家族对序列缺陷和碱基三联体的识别

Sequence imperfections and base triplet recognition by the Rad51/RecA family of recombinases.

作者信息

Lee Ja Yil, Steinfeld Justin B, Qi Zhi, Kwon YoungHo, Sung Patrick, Greene Eric C

机构信息

From the Department of Biochemistry and Molecular Biophysics, Columbia University, New York, New York 10032 and.

the Department of Molecular Biophysics and Biochemistry, Yale University School of Medicine, New Haven, Connecticut 06510.

出版信息

J Biol Chem. 2017 Jun 30;292(26):11125-11135. doi: 10.1074/jbc.M117.787614. Epub 2017 May 5.

DOI:10.1074/jbc.M117.787614
PMID:28476890
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5491793/
Abstract

Homologous recombination plays key roles in double-strand break repair, rescue, and repair of stalled replication forks and meiosis. The broadly conserved Rad51/RecA family of recombinases catalyzes the DNA strand invasion reaction that takes place during homologous recombination. We have established single-stranded (ss)DNA curtain assays for measuring individual base triplet steps during the early stages of strand invasion. Here, we examined how base triplet stepping by RecA, Rad51, and Dmc1 is affected by DNA sequence imperfections, such as single and multiple mismatches, abasic sites, and single nucleotide insertions. Our work reveals features of base triplet stepping that are conserved among these three phylogenetic lineages of the Rad51/RecA family and also reveals lineage-specific behaviors reflecting properties that are unique to each recombinase. These findings suggest that Dmc1 is tolerant of single mismatches, multiple mismatches, and even abasic sites, whereas RecA and Rad51 are not. Interestingly, the presence of single nucleotide insertion abolishes recognition of an adjacent base triplet by all three recombinases. On the basis of these findings, we describe models for how sequence imperfections may affect base triplet recognition by Rad51/RecA family members, and we discuss how these models and our results may relate to the different biological roles of RecA, Rad51, and Dmc1.

摘要

同源重组在双链断裂修复、停滞复制叉的挽救与修复以及减数分裂过程中发挥着关键作用。广泛保守的Rad51/RecA重组酶家族催化同源重组过程中发生的DNA链侵入反应。我们建立了单链(ss)DNA帘式分析法,用于测量链侵入早期阶段的单个碱基三联体步移。在此,我们研究了RecA、Rad51和Dmc1的碱基三联体步移如何受到DNA序列缺陷的影响,如单碱基错配和多碱基错配、无碱基位点以及单核苷酸插入。我们的工作揭示了Rad51/RecA家族这三个系统发育谱系中保守的碱基三联体步移特征,同时也揭示了反映每种重组酶独特性质的谱系特异性行为。这些发现表明,Dmc1能够耐受单碱基错配、多碱基错配甚至无碱基位点,而RecA和Rad51则不能。有趣的是,单核苷酸插入的存在会消除所有三种重组酶对相邻碱基三联体 的识别。基于这些发现,我们描述了序列缺陷可能如何影响Rad51/RecA家族成员对碱基三联体识别的模型,并讨论了这些模型以及我们的结果如何与RecA、Rad51和Dmc1的不同生物学作用相关。

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