缺乏契合成重组热点活性的大肠杆菌RecBC假回复突变体。
Escherichia coli RecBC pseudorevertants lacking chi recombinational hotspot activity.
作者信息
Schultz D W, Taylor A F, Smith G R
出版信息
J Bacteriol. 1983 Aug;155(2):664-80. doi: 10.1128/jb.155.2.664-680.1983.
Abstract
Pseudorevertants of an Escherichia coli exonuclease V (RecBC enzyme)-negative mutant have been isolated after ethyl methane sulfonate mutagenesis of a recC73 (presumed missense) mutant. The remedial mutations in each of the four pseudorevertants studied in detail map and complement as recC mutations. By several criteria, such as recombination proficiency, support of phage growth, RecBC nuclease activity, and cell viability, the pseudorevertants appear to have regained partially or completely various aspects of RecBC activity. However, chi recombinational hotspots, which stimulate exclusively the RecBC pathway of recombination, have no detectable activity in lambda vegetative crosses in the pseudorevertants. The properties of these mutants, in which the RecBC pathway of recombination is active yet in which chi is not active, are consistent with the hypothesis that wild-type RecBC enzyme directly interacts with chi sites; alternatively, the mutants may block or bypass the productive interaction of another recombinational enzyme with chi.
摘要
在用甲磺酸乙酯对recC73(推测为错义)突变体进行诱变后,已分离出大肠杆菌核酸外切酶V(RecBC酶)阴性突变体的假回复突变体。对详细研究的四个假回复突变体中的每一个进行的补救突变,定位并互补为recC突变。根据几个标准,如重组能力、噬菌体生长支持、RecBC核酸酶活性和细胞活力,假回复突变体似乎已部分或完全恢复了RecBC活性的各个方面。然而,在假回复突变体的λ营养杂交中,专门刺激RecBC重组途径的chi重组热点没有可检测到的活性。这些突变体的特性是,RecBC重组途径活跃但chi不活跃,这与野生型RecBC酶直接与chi位点相互作用的假设一致;或者,这些突变体可能会阻断或绕过另一种重组酶与chi的有效相互作用。
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