氧化还原信号转导：突变导致SoxR传感调节蛋白的[2Fe-2S]中心转变为氧化形式。

Redox signal transduction: mutations shifting [2Fe-2S] centers of the SoxR sensor-regulator to the oxidized form.

作者信息

Hidalgo E, Ding H, Demple B

机构信息

Department of Molecular and Cellular Toxicology, Harvard School of Public Health, Boston, Massachusetts 02115-6021, USA.

出版信息

Cell. 1997 Jan 10;88(1):121-9. doi: 10.1016/s0092-8674(00)81864-4.

DOI:10.1016/s0092-8674(00)81864-4

PMID:9019397

Abstract

SoxR is a [2Fe-2S] transcription factor triggered by oxidative stress and activated in vitro by one-electron oxidation or assembly of the iron-sulfur centers. To distinguish which mechanism operates in cells, we studied constitutively active SoxR (SoxRc) proteins. Three SoxRc proteins contained [2Fe-2S] centers required for in vitro transcription and, like wild-type SoxR, were inactivated by chemical reduction. However, in vivo spectroscopy showed that even without oxidative stress, the three SoxRc proteins failed to accumulate with reduced [2Fe-2S] (< or = 4% compared to > or = 40% for wild type). One SoxRc protein had a redox potential 65 mV lower than wild type, consistent with its accumulation in the oxidized (activated) form in vivo. These results link in vitro and in vivo approaches showing novel redox regulation that couples an iron-sulfur oxidation state to promoter activation.

摘要

SoxR是一种由氧化应激触发的[2Fe-2S]转录因子，在体外可通过单电子氧化或铁硫中心的组装而被激活。为了区分细胞中哪种机制起作用，我们研究了组成型活性SoxR（SoxRc）蛋白。三种SoxRc蛋白含有体外转录所需的[2Fe-2S]中心，并且与野生型SoxR一样，可通过化学还原而失活。然而，体内光谱分析表明，即使没有氧化应激，这三种SoxRc蛋白也无法以还原的[2Fe-2S]形式积累（与野生型的≥40%相比，<或=4%）。一种SoxRc蛋白的氧化还原电位比野生型低65 mV，这与其在体内以氧化（激活）形式积累一致。这些结果将体外和体内方法联系起来，显示了一种将铁硫氧化态与启动子激活相偶联的新型氧化还原调节。

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Redox signal transduction: mutations shifting [2Fe-2S] centers of the SoxR sensor-regulator to the oxidized form.氧化还原信号转导：突变导致SoxR传感调节蛋白的[2Fe-2S]中心转变为氧化形式。

Cell. 1997 Jan 10;88(1):121-9. doi: 10.1016/s0092-8674(00)81864-4.

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氧化还原信号转导：突变导致SoxR传感调节蛋白的[2Fe-2S]中心转变为氧化形式。

Redox signal transduction: mutations shifting [2Fe-2S] centers of the SoxR sensor-regulator to the oxidized form.

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