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Redox-Sensitive Dna Binding By Homodimeric Methanosarcina Acetivorans Msvr Is Modulated By Cysteine Residues, Catherine E. Isom, Jessica Turner, Daniel J. Lessner, Elizabeth A. Karr
Redox-Sensitive Dna Binding By Homodimeric Methanosarcina Acetivorans Msvr Is Modulated By Cysteine Residues, Catherine E. Isom, Jessica Turner, Daniel J. Lessner, Elizabeth A. Karr
Biology Faculty Publications
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 …