应激状态下铁硫簇组装支架的分子研究

Molecular investigation of iron-sulfur cluster assembly scaffolds under stress.

作者信息

Blanc Béatrice, Clémancey Martin, Latour Jean-Marc, Fontecave Marc, Ollagnier de Choudens Sandrine

机构信息

Université Grenoble Alpes , iRTSV-LCBM, F-38000 Grenoble, France.

出版信息

Biochemistry. 2014 Dec 23;53(50):7867-9. doi: 10.1021/bi5012496. Epub 2014 Dec 10.

DOI:10.1021/bi5012496

PMID:25485887

Abstract

Fe/S biosynthesis is controlled in Escherichia coli by two machineries, the housekeeping ISC machinery and the SUF system that is functional under stress conditions. Despite many in vivo studies showing that SUF is more adapted for Fe/S assembly under stress, no molecular data supporting this concept have been provided so far. This work focuses on molecular studies of key actors in Fe/S assembly, the SufB and IscU scaffolds under oxidative stress and iron limitation. We show that the IscU Fe2S2 cluster is less stable than the SufB Fe2S2 cluster in the presence of hydrogen peroxide, oxygen, and an iron chelator.

摘要

在大肠杆菌中，铁硫（Fe/S）生物合成由两套机制控制，即维持细胞正常功能的铁硫簇组装（ISC）机制和在应激条件下起作用的铁硫簇组装促进因子（SUF）系统。尽管许多体内研究表明，在应激条件下SUF更适合进行铁硫簇组装，但迄今为止尚未提供支持这一概念的分子数据。这项工作聚焦于铁硫簇组装关键因子的分子研究，即在氧化应激和铁限制条件下的SufB和IscU支架蛋白。我们发现，在过氧化氢、氧气和铁螯合剂存在的情况下，IscU Fe2S2簇比SufB Fe2S2簇更不稳定。

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应激状态下铁硫簇组装支架的分子研究

Molecular investigation of iron-sulfur cluster assembly scaffolds under stress.

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