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非特异性DNA结合蛋白Dps在氧化应激期间对DNA的保护作用。

Protection of DNA during oxidative stress by the nonspecific DNA-binding protein Dps.

作者信息

Martinez A, Kolter R

机构信息

Department of Microbiology and Molecular Genetics, Harvard Medical School, Boston, Massachusetts 02115, USA.

出版信息

J Bacteriol. 1997 Aug;179(16):5188-94. doi: 10.1128/jb.179.16.5188-5194.1997.

DOI:10.1128/jb.179.16.5188-5194.1997
PMID:9260963
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC179379/
Abstract

Reactive oxygen species can damage most cellular components, but DNA appears to be the most sensitive target of these agents. Here we present the first evidence of DNA protection against the toxic and mutagenic effects of oxidative damage in metabolically active cells: direct protection of DNA by Dps, an inducible nonspecific DNA-binding protein from Escherichia coli. We demonstrate that in a recA-deficient strain, expression of Dps from an inducible promoter prior to hydrogen peroxide challenge increases survival and reduces the number of chromosomal single-strand breaks. dps mutants exhibit increased levels of the G x C-->T x A mutations characteristic of oxidative damage after treatment with hydrogen peroxide. In addition, expression of Dps from the inducible plasmid reduces the frequency of spontaneous G x C-->T x A and A x T-->T x A mutations and can partially suppress the mutator phenotype of mutM (fpg) and mutY alleles. In a purified in vitro system, Dps reduces the number of DNA single-strand breaks and Fpg-sensitive sites introduced by hydrogen peroxide treatment, indicating that the protection observed in vivo is a direct effect of DNA binding by Dps. The widespread conservation of Dps homologs among prokaryotes suggests that this may be a general strategy for coping with oxidative stress.

摘要

活性氧可损伤大多数细胞成分,但DNA似乎是这些因子最敏感的靶点。在此,我们首次证明在代谢活跃的细胞中,DNA可免受氧化损伤的毒性和诱变作用:来自大肠杆菌的一种可诱导的非特异性DNA结合蛋白Dps可直接保护DNA。我们证明,在一个recA缺陷菌株中,在过氧化氢攻击之前从可诱导启动子表达Dps可提高存活率并减少染色体单链断裂的数量。dps突变体在用过氧化氢处理后,表现出氧化损伤特有的G x C-->T x A突变水平增加。此外,从可诱导质粒表达Dps可降低自发的G x C-->T x A和A x T-->T x A突变频率,并可部分抑制mutM(fpg)和mutY等位基因的突变体表型。在一个纯化的体外系统中,Dps可减少过氧化氢处理引入的DNA单链断裂数量和Fpg敏感位点,这表明在体内观察到的保护作用是Dps与DNA结合的直接效应。原核生物中Dps同源物的广泛保守性表明,这可能是应对氧化应激的一种普遍策略。

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