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γ 射线诱导的耐辐射球菌蛋白质组主要针对 DNA 修复和氧化应激缓解。

Gamma radiation-induced proteome of Deinococcus radiodurans primarily targets DNA repair and oxidative stress alleviation.

机构信息

Molecular Biology Division, Bhabha Atomic Research Centre, Mumbai 400085, India.

Molecular Biology Division, Bhabha Atomic Research Centre, Mumbai 400085, India.

出版信息

Mol Cell Proteomics. 2012 Jan;11(1):M111.011734. doi: 10.1074/mcp.M111.011734. Epub 2011 Oct 11.

DOI:10.1074/mcp.M111.011734
PMID:21989019
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3270106/
Abstract

The extraordinary radioresistance of Deinococcus radiodurans primarily originates from its efficient DNA repair ability. The kinetics of proteomic changes induced by a 6-kGy dose of gamma irradiation was mapped during the post-irradiation growth arrest phase by two-dimensional protein electrophoresis coupled with mass spectrometry. The results revealed that at least 37 proteins displayed either enhanced or de novo expression in the first 1 h of post-irradiation recovery. All of the radiation-responsive proteins were identified, and they belonged to the major functional categories of DNA repair, oxidative stress alleviation, and protein translation/folding. The dynamics of radiation-responsive protein levels throughout the growth arrest phase demonstrated (i) sequential up-regulation and processing of DNA repair proteins such as single-stranded DNA-binding protein (Ssb), DNA damage response protein A (DdrA), DNA damage response protein B (DdrB), pleiotropic protein promoting DNA repair (PprA), and recombinase A (RecA) substantiating stepwise genome restitution by different DNA repair pathways and (ii) concurrent early up-regulation of proteins involved in both DNA repair and oxidative stress alleviation. Among DNA repair proteins, Ssb was found to be the first and most abundant radiation-induced protein only to be followed by alternate Ssb, DdrB, indicating aggressive protection of single strand DNA fragments as the first line of defense by D. radiodurans, thereby preserving genetic information following radiation stress. The implications of both qualitative or quantitative and sequential or co-induction of radiation-responsive proteins for envisaged DNA repair mechanism in D. radiodurans are discussed.

摘要

耐辐射球菌的非凡辐射抗性主要源于其高效的 DNA 修复能力。通过二维蛋白质电泳结合质谱法,在辐照后生长停滞阶段,绘制了 6Gy 剂量γ射线诱导的蛋白质组变化的动力学。结果表明,在辐照后恢复的前 1 小时内,至少有 37 种蛋白质表现出增强或新表达。鉴定了所有辐射响应蛋白,它们属于 DNA 修复、氧化应激缓解和蛋白质翻译/折叠等主要功能类别。在整个生长停滞阶段,辐射响应蛋白水平的动力学表明:(i)DNA 修复蛋白(如单链 DNA 结合蛋白(Ssb)、DNA 损伤反应蛋白 A(DdrA)、DNA 损伤反应蛋白 B(DdrB)、促进 DNA 修复的多效蛋白(PprA)和重组酶 A(RecA)的顺序上调和加工,证实了不同 DNA 修复途径逐步恢复基因组;(ii)同时早期上调参与 DNA 修复和氧化应激缓解的蛋白质。在 DNA 修复蛋白中,Ssb 是最早和最丰富的辐射诱导蛋白,其次是替代 Ssb 和 DdrB,这表明 D. radiodurans 通过 DdrB 积极保护单链 DNA 片段作为第一道防线,从而在辐射应激后保存遗传信息。讨论了定性或定量、顺序或共诱导辐射响应蛋白对 D. radiodurans 中预期 DNA 修复机制的影响。

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