体内χ刺激重组中间体中3'和5'单链DNA末端的证据。
Evidence for both 3' and 5' single-strand DNA ends in intermediates in chi-stimulated recombination in vivo.
作者信息
Razavy H, Szigety S K, Rosenberg S M
机构信息
Department of Biological Sciences, University of Alberta, Edmonton, Canada.
出版信息
Genetics. 1996 Feb;142(2):333-9. doi: 10.1093/genetics/142.2.333.
Abstract
This paper focuses on elucidation of the structures of intermediates in recombination stimulated by Chi recombination hotspots in vivo. We report that null mutations in genes encoding single-strand exonucleases of 3' polarity, Exonuclease I (Exo I), of 5' polarity, RecJ, and of both polarities, Exo VII, alter the ability of Chi sites to promote recombination, and diminish the frequency of recombination. Maximal effects occur when single-strand exonucleases of both polarities are eliminated. These data imply that 3' and 5' single-strand DNA ends, the substrates for these exonucleases, exist in bona fide, product-generating intermediates in Chi-stimulated recombination in vivo. These results also identify three new proteins not known previously to affect RecBCD-mediated recombination.
摘要
本文着重于阐明体内Chi重组热点刺激的重组过程中中间体的结构。我们报告称,编码具有3'极性的单链外切核酸酶Exonuclease I(Exo I)、具有5'极性的RecJ以及具有双极性的Exo VII的基因中的无效突变,会改变Chi位点促进重组的能力,并降低重组频率。当消除具有双极性的单链外切核酸酶时,会产生最大影响。这些数据表明,作为这些外切核酸酶底物的3'和5'单链DNA末端,存在于体内Chi刺激的重组中真正产生产物的中间体中。这些结果还鉴定出三种以前未知会影响RecBCD介导的重组的新蛋白质。
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