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对耐辐射球菌对电离辐射和干燥的转录反应的分析揭示了有助于极端抗辐射性的新蛋白质。

Analysis of Deinococcus radiodurans's transcriptional response to ionizing radiation and desiccation reveals novel proteins that contribute to extreme radioresistance.

作者信息

Tanaka Masashi, Earl Ashlee M, Howell Heather A, Park Mie-Jung, Eisen Jonathan A, Peterson Scott N, Battista John R

机构信息

Department of Biological Sciences, Louisiana State University, Baton Rouge 70803, USA.

出版信息

Genetics. 2004 Sep;168(1):21-33. doi: 10.1534/genetics.104.029249.

DOI:10.1534/genetics.104.029249
PMID:15454524
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1448114/
Abstract

During the first hour after a sublethal dose of ionizing radiation, 72 genes were upregulated threefold or higher in D. radiodurans R1. Thirty-three of these loci were also among a set of 73 genes expressed in R1 cultures recovering from desiccation. The five transcripts most highly induced in response to each stress are the same and encode proteins of unknown function. The genes (ddrA, ddrB, ddrC, ddrD, and pprA) corresponding to these transcripts were deleted, both alone and in all possible two-way combinations. Characterization of the mutant strains defines three epistasis groups that reflect different cellular responses to ionizing radiation-induced damage. The ddrA and ddrB gene products have complementary activities and inactivating both loci generates a strain that is more sensitive to ionizing radiation than strains in which either single gene has been deleted. These proteins appear to mediate efficient RecA-independent processes connected to ionizing radiation resistance. The pprA gene product is not necessary for homologous recombination during natural transformation, but nevertheless may participate in a RecA-dependent process during recovery from radiation damage. These characterizations clearly demonstrate that novel mechanisms significantly contribute to the ionizing radiation resistance in D. radiodurans.

摘要

在给予亚致死剂量的电离辐射后的第一个小时内,耐辐射球菌R1中有72个基因上调了三倍或更高。其中33个基因座也在从干燥中恢复的R1培养物中表达的73个基因中。对每种应激反应诱导程度最高的五个转录本是相同的,它们编码功能未知的蛋白质。对应于这些转录本的基因(ddrA、ddrB、ddrC、ddrD和pprA)被单独或所有可能的双向组合删除。突变菌株的表征定义了三个上位性组,反映了细胞对电离辐射诱导损伤的不同反应。ddrA和ddrB基因产物具有互补活性,使两个基因座失活会产生一个比对单个基因进行删除的菌株对电离辐射更敏感的菌株。这些蛋白质似乎介导了与抗电离辐射相关的高效的不依赖RecA的过程。pprA基因产物在自然转化过程中对同源重组不是必需的,但在从辐射损伤中恢复的过程中可能参与了一个依赖RecA的过程。这些表征清楚地表明,新机制对耐辐射球菌的抗电离辐射能力有显著贡献。

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