Rad51 ATP binding but not hydrolysis is required to recruit Rad10 in synthesis-dependent strand annealing sites in S. cerevisiae.

Advances in Biological Chemistry Pub Date : 2013-06-01 DOI:10.4236/abc.2013.33033
Justin Karlin, Paula L Fischhaber
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引用次数: 3

Abstract

Several modes of eukaryotic of DNA double strand break repair (DSBR) depend on synapsis of complementary DNA. The Rad51 ATPase, the S. cerevisiae homolog of E. coli RecA, plays a key role in this process by catalyzing homology searching and strand exchange between an invading DNA strand and a repair template (e.g. sister chromatid or homologous chromosome). Synthesis dependent strand annealing (SDSA), a mode of DSBR, requires Rad51. Another repair enzyme, the Rad1-Rad10 endonuclease, acts in the final stages of SDSA, hydrolyzing 3' overhanging single-stranded DNA. Here we show in vivo by fluorescence microscopy that the ATP binding function of yeast Rad51 is required to recruit Rad10 SDSA sites indicating that Rad51 pre-synaptic filament formation must occur prior to the recruitment of Rad1-Rad10. Our data also show that Rad51 ATPase activity, an important step in Rad51 filament disassembly, is not absolutely required in order to recruit Rad1-Rad10 to DSB sites.

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在酿酒酵母中,Rad51需要ATP结合而不是水解才能在合成依赖的链退火位点招募Rad10。
真核生物DNA双链断裂修复(DSBR)的几种模式依赖于互补DNA的突触。Rad51 atp酶是大肠杆菌RecA的同源物,在这一过程中起关键作用,它催化入侵DNA链与修复模板(如姐妹染色单体或同源染色体)之间的同源性搜索和链交换。合成依赖链退火(SDSA)是DSBR的一种模式,需要Rad51。另一种修复酶,Rad1-Rad10内切酶,在SDSA的最后阶段起作用,水解3'悬垂单链DNA。本研究通过荧光显微镜在体内显示,酵母Rad51的ATP结合功能是募集Rad10 SDSA位点所必需的,这表明Rad51突触前丝的形成必须在Rad1-Rad10募集之前发生。我们的数据还表明,Rad51 atp酶活性是Rad51细丝分解的一个重要步骤,但并不是将Rad1-Rad10招募到DSB位点所绝对需要的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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Advances in Biological Chemistry
Advances in Biological Chemistry
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