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PprI:一种负责嗜放射栖热菌极端辐射抗性的通用开关。

PprI: a general switch responsible for extreme radioresistance of Deinococcus radiodurans.

作者信息

Hua Yuejin, Narumi Issay, Gao Guanjun, Tian Bing, Satoh Katsuya, Kitayama Shigeru, Shen Binghui

机构信息

Institute of Nuclear-Agricultural Science, Zhejiang University, 310029, Hangzhou, China.

出版信息

Biochem Biophys Res Commun. 2003 Jun 27;306(2):354-60. doi: 10.1016/s0006-291x(03)00965-3.

Abstract

Deinococcus radiodurans exhibits an extraordinary ability to withstand the lethal and mutagenic effects of DNA damaging agents, particularly, ionizing radiation. Available evidence indicates that efficient repair of DNA damage and protection of the chromosomal structure are mainly responsible for the radioresistance. Little is known about the biochemical basis for this phenomenon. We have identified a unique gene, pprI, as a general switch for downstream DNA repair and protection pathways, from a natural mutant, in which pprI is disrupted by a transposon. Complete functional disruption of the gene in wild-type leads to dramatic sensitivity to ionizing radiation. Radioresistance of the disruptant could be fully restored by complementation with pprI. In response to radiation stress, PprI can significantly and specifically induce the gene expression of recA and pprA and enhance the enzyme activities of catalases. These results strongly suggest that PprI plays a crucial role in regulating multiple DNA repair and protection pathways in response to radiation stress.

摘要

耐辐射球菌展现出非凡的能力,能够抵御DNA损伤剂(尤其是电离辐射)的致死和诱变作用。现有证据表明,DNA损伤的高效修复和染色体结构的保护是其抗辐射能力的主要原因。对于这一现象的生化基础,人们了解甚少。我们从一个天然突变体中鉴定出一个独特的基因pprI,它是下游DNA修复和保护途径的通用开关,在该突变体中pprI被转座子破坏。野生型中该基因的完全功能破坏会导致对电离辐射的显著敏感性。通过用pprI进行互补,可以完全恢复破坏体的抗辐射能力。响应辐射应激时,PprI可以显著且特异性地诱导recA和pprA的基因表达,并增强过氧化氢酶的酶活性。这些结果强烈表明,PprI在响应辐射应激时调节多种DNA修复和保护途径中起着关键作用。

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