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Expression of the peroxide stress genes alkyl hydroperoxide reductase (ahpC) and catalase (katA) of the microaerophile Campylobacter jejuni is repressed by iron. Whereas iron repression in gram-negative bacteria is usually carried out by the Fur protein, previous work showed that this is not the case in C. jejuni, as these genes are still iron repressed in a C. jejuni fur mutant. An open reading frame encoding a Fur homolog (designated PerR for "peroxide stress regulator") was identified in the genome sequence of C. jejuni. The perR gene was disrupted by a kanamycin resistance cassette in C. jejuni wild-type and fur mutant strains. Subsequent characterization of the C. jejuni perR mutants showed derepressed expression of both AhpC and KatA at a much higher level than that obtained by iron limitation, suggesting that expression of these genes is controlled by other regulatory factors in addition to the iron level. Other iron-regulated proteins were not affected by the perR mutation. The fur perR double mutant showed derepressed expression of known iron-repressed genes. Further phenotypic analysis of the perR mutant, fur mutant, and the fur perR double mutant showed that the perR mutation made C. jejuni hyperresistant to peroxide stress caused by hydrogen peroxide and cumene hydroperoxide, a finding consistent with the high levels of KatA and AhpC expression, and showed that these enzymes were functional. Quantitative analysis of KatA expression showed that both the perR mutation and the fur mutation had profound effects on catalase activity, suggesting additional non-iron-dependent regulation of KatA and, by inference, AhpC. The PerR protein is a functional but nonhomologous substitution for the OxyR protein, which regulates peroxide stress genes in other gram-negative bacteria. Regulation of peroxide stress genes by a Fur homolog has recently been described for the gram-positive bacterium Bacillus subtilis. C. jejuni is the first gram-negative bacterium where non-OxyR regulation of peroxide stress genes has been described and characterized.  相似文献   

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PerR是一类存在于多种细菌中的转录因子。研究证实PerR调控的靶基因包括过氧化氢酶katA、DNA结合蛋白mrgA、铁转运调控子fur、血红素合成基因簇hemAXCDBL以及自身perR等。PerR参与的调控作用在细菌的抗氧化作用、胞内的铁离子动态平衡、以及致病菌致病作用中具有重要的意义。本综述主要从PerR调控的靶基因、参与的生理代谢作用以及PerR转录调控的分子机制等方面进行介绍,以期对我们深入了解细菌的抗逆作用机制提供参考。  相似文献   

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The Bacillus subtilis PerR repressor regulates the adaptive response to peroxide stress. The PerR regulon includes the major vegetative catalase (katA), an iron storage protein (mrgA), an alkylhydroperoxide reductase (ahpCF), a zinc uptake system (zosA), heme biosynthesis enzymes (hemAXCDBL), the iron uptake repressor (fur), and perR itself. A perR null strain is resistant to hydrogen peroxide, accumulates a porphyrin-like compound, and grows very slowly. The poor growth of the perR mutant can be largely accounted for by the elevated expression of two proteins: the KatA catalase and Fur. Genetic studies support a model in which poor growth of the perR null mutant is due to elevated repression of iron uptake by Fur, exacerbated by heme sequestration by the abundant catalase protein. Analysis of the altered-function allele perR991 further supports a link between PerR and iron homeostasis. Strains containing perR991 are peroxide resistant but grow nearly as well as the wild type. Unlike a perR null allele, the perR991 allele (F51S) derepresses KatA, but not Fur, which likely accounts for its comparatively rapid growth.  相似文献   

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