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同型二聚体 Methanosarcina acetivorans MsvR 的氧化还原敏感 DNA 结合由半胱氨酸残基调节。

Redox-sensitive DNA binding by homodimeric Methanosarcina acetivorans MsvR is modulated by cysteine residues.

机构信息

Department of Microbiology and Plant Biology, University of Oklahoma, 770 Van Vleet Oval, Norman, OK, 73019, USA.

出版信息

BMC Microbiol. 2013 Jul 16;13:163. doi: 10.1186/1471-2180-13-163.

DOI:10.1186/1471-2180-13-163
PMID:23865844
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3729527/
Abstract

BACKGROUND

Methanoarchaea are among the strictest known anaerobes, yet they can survive exposure to oxygen. The mechanisms by which they sense and respond to oxidizing conditions are unknown. MsvR is a transcription regulatory protein unique to the methanoarchaea. Initially identified and characterized in the methanogen Methanothermobacter thermautotrophicus (Mth), MthMsvR displays differential DNA binding under either oxidizing or reducing conditions. Since MthMsvR regulates a potential oxidative stress operon in M. thermautotrophicus, it was hypothesized that the MsvR family of proteins were redox-sensitive transcription regulators.

RESULTS

An MsvR homologue from the methanogen Methanosarcina acetivorans, MaMsvR, was overexpressed and purified. The two MsvR proteins bound the same DNA sequence motif found upstream of all known MsvR encoding genes, but unlike MthMsvR, MaMsvR did not bind the promoters of select genes involved in the oxidative stress response. Unlike MthMsvR that bound DNA under both non-reducing and reducing conditions, MaMsvR bound DNA only under reducing conditions. MaMsvR appeared as a dimer in gel filtration chromatography analysis and site-directed mutagenesis suggested that conserved cysteine residues within the V4R domain were involved in conformational rearrangements that impact DNA binding.

CONCLUSIONS

Results presented herein suggest that homodimeric MaMsvR acts as a transcriptional repressor by binding Ma PmsvR under non-reducing conditions. Changing redox conditions promote conformational changes that abrogate binding to Ma PmsvR which likely leads to de-repression.

摘要

背景

甲烷古菌是已知最严格的厌氧菌之一,但它们能够在暴露于氧气的情况下存活。它们感知和应对氧化条件的机制尚不清楚。MsvR 是一种仅存在于甲烷古菌中的转录调控蛋白。最初在产甲烷菌 Methanothermobacter thermautotrophicus(Mth)中鉴定和表征,MthMsvR 在氧化或还原条件下显示出不同的 DNA 结合。由于 MthMsvR 调节 Methanothermobacter thermautotrophicus 中的潜在氧化应激操纵子,因此假设 MsvR 家族蛋白是氧化还原敏感的转录调控因子。

结果

来自产甲烷菌 Methanosarcina acetivorans 的 MsvR 同源物 MaMsvR 被过表达和纯化。这两种 MsvR 蛋白都结合了所有已知 MsvR 编码基因上游发现的相同 DNA 序列基序,但与 MthMsvR 不同,MaMsvR 不结合参与氧化应激反应的选定基因的启动子。与在非还原和还原条件下都结合 DNA 的 MthMsvR 不同,MaMsvR 仅在还原条件下结合 DNA。MaMsvR 在凝胶过滤层析分析中表现为二聚体,定点突变表明 V4R 结构域内保守的半胱氨酸残基参与影响 DNA 结合的构象重排。

结论

本文的研究结果表明,同源二聚体 MaMsvR 通过在非还原条件下结合 Ma PmsvR 作为转录阻遏物发挥作用。改变氧化还原条件会促进构象变化,从而消除与 Ma PmsvR 的结合,这可能导致去阻遏。

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