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来自枯草芽孢杆菌的转录因子NsrR通过一个4Fe-4S簇感知一氧化氮(†)。

Transcription Factor NsrR from Bacillus subtilis Senses Nitric Oxide with a 4Fe-4S Cluster (†).

作者信息

Yukl Erik T, Elbaz Mohamed A, Nakano Michiko M, Moënne-Loccoz Pierre

机构信息

Department of Science and Engineering, School of Medicine, Oregon Health & Science University, 20,000 NW Walker Road, Beaverton, Oregon 97006-8921.

出版信息

Biochemistry. 2008 Dec 9;47(49):13084-92. doi: 10.1021/bi801342x.

DOI:10.1021/bi801342x
PMID:19006327
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2891187/
Abstract

In Bacillus subtilis, NsrR is required for the upregulation of ResDE-dependent genes in the presence of nitric oxide (NO). NsrR was shown to bind to the promoters of these genes and inhibit their transcription in vitro. NO relieves this inhibition by an unknown mechanism. Here, we use spectroscopic techniques (UV-vis, resonance Raman, and EPR) to show that anaerobically isolated NsrR from B. subtilis contains a 4Fe-4S cluster, which reacts with NO to form dinitrosyl iron complexes. This method of NO sensing is analogous to that of the FNR protein of Escherichia coli. The Fe-S cluster of NsrR is also reactive toward other exogenous ligands such as cyanide, dithiothreitol, and O(2). These results, together with the fact that there are only three cysteine residues in NsrR, suggest that the 4Fe-4S cluster contains a noncysteinyl labile ligand to one of the iron atoms, leading to high reactivity. Size exclusion chromatography and cross-linking experiments show that NsrR adopts a dimeric structure in its 4Fe-4S holo form as well as in the apo form. These findings provide a first stepping stone to investigate the mechanism of NO sensing in NsrR.

摘要

在枯草芽孢杆菌中,在一氧化氮(NO)存在的情况下,ResDE依赖性基因的上调需要NsrR。研究表明,NsrR可与这些基因的启动子结合,并在体外抑制其转录。NO通过未知机制解除这种抑制作用。在此,我们使用光谱技术(紫外可见光谱、共振拉曼光谱和电子顺磁共振)表明,从枯草芽孢杆菌中厌氧分离得到的NsrR含有一个4Fe-4S簇,该簇与NO反应形成二亚硝酰基铁配合物。这种NO传感方法类似于大肠杆菌的FNR蛋白。NsrR的铁硫簇也对外源配体如氰化物、二硫苏糖醇和O(2)有反应。这些结果,再加上NsrR中只有三个半胱氨酸残基这一事实,表明4Fe-4S簇中的一个铁原子含有一个非半胱氨酸不稳定配体,导致其具有高反应活性。尺寸排阻色谱和交联实验表明,NsrR在其4Fe-4S全酶形式以及无辅基形式下均采用二聚体结构。这些发现为研究NsrR中NO传感机制提供了第一个基石。

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The nitric oxide-responsive regulator NsrR controls ResDE-dependent gene expression.一氧化氮响应调节因子NsrR控制ResDE依赖性基因表达。
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