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SOS诱变活性的本质:大肠杆菌中非靶向诱变的遗传特征分析

Nature of the SOS mutator activity: genetic characterization of untargeted mutagenesis in Escherichia coli.

作者信息

Caillet-Fauquet P, Maenhaut-Michel G

机构信息

Département de Biologie Moléculaire, Université libre de Bruxelles, Rhode-St-Genèse, Belgium.

出版信息

Mol Gen Genet. 1988 Aug;213(2-3):491-8. doi: 10.1007/BF00339621.

DOI:10.1007/BF00339621
PMID:2972909
Abstract

In Escherichia coli, induction of the SOS functions by UV irradiation or by mutation in the recA gene promotes an SOS mutator activity which generates mutations in undamaged DNA. Activation of RecA protein by the recA730 mutation increases the level of spontaneous mutation in the bacterial DNA. The number of recA730-induced mutations is greatly increased in mismatch repair deficient strains in which replication errors are not corrected. This suggests that the majority of recA730-induced mutations (90%) arise through correctable, i.e. non-targeted, replication errors. This recA730 mutator effect is suppressed by a mutation in the umuC gene. We also found that dam recA730 double mutants are unstable, segregating clones that have lost the dam or the recA mutations or that have acquired a new mutation, probably in one of the genes involved in mismatch repair. We suggest that the genetic instability of the dam recA730 mutants is provoked by the high level of replication errors induced by the recA730 mutation, generating killing by coincident mismatch repair on the two unmethylated DNA strands. The recA730 mutation increases spontaneous mutagenesis of phage lambda poorly. UV irradiation of recA730 host bacteria increases phage untargeted mutagenesis to the level observed in UV-irradiated recA+ strains. This UV-induced mutator effect in recA730 mutants is not suppressed by a umuC mutation. Therefore UV and the recA730 mutation seem to induce different SOS mutator activities, both generating untargeted mutations.

摘要

在大肠杆菌中,紫外线照射或recA基因突变诱导SOS功能会促进一种SOS诱变活性,该活性会在未受损的DNA中产生突变。recA730突变激活RecA蛋白会增加细菌DNA中的自发突变水平。在错配修复缺陷菌株中,recA730诱导的突变数量大幅增加,在这些菌株中复制错误未得到纠正。这表明recA730诱导的大多数突变(90%)是通过可纠正的,即非靶向的复制错误产生的。umuC基因突变可抑制这种recA730诱变效应。我们还发现dam recA730双突变体不稳定,会分离出丢失dam或recA突变的克隆,或者获得一个新突变的克隆,这个新突变可能发生在参与错配修复的基因之一中。我们认为,dam recA730突变体的遗传不稳定性是由recA730突变诱导的高水平复制错误引发的,在两条未甲基化的DNA链上同时进行错配修复会导致细胞死亡。recA730突变对噬菌体λ的自发诱变作用增强效果不佳。用紫外线照射recA730宿主细菌会使噬菌体的非靶向诱变增加到在紫外线照射的recA+菌株中观察到的水平。在recA730突变体中这种紫外线诱导的诱变效应不会被umuC突变所抑制。因此,紫外线和recA730突变似乎诱导了不同的SOS诱变活性,两者都会产生非靶向突变。

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