The methanogen-specific transcription factor MsvR regulates the fpaA-rlp-rub oxidative stress operon adjacent to msvR in Methanothermobacter thermautotrophicus.

Methanogens represent some of the most oxygen-sensitive organisms in laboratory culture. Recent studies indicate that they have developed mechanisms to deal with brief oxygen exposure. MsvR is a transcriptional regulator that has a domain architecture unique to a select group of methanogens. Here, runoff in vitro transcription assays were used to demonstrate that MsvR regulates transcription of the divergently transcribed fpaA-rlp-rub operon in Methanothermobacter thermautotrophicus in addition to transcription from its own promoter. The protein products of the fpaA-rlp-rub operon have previously been implicated in oxidative stress responses in M. thermautotrophicus. Additionally, electrophoretic mobility shift assays (EMSAs) and DNase I footprinting were used to confirm a binding site inferred by bioinformatic analysis. Sequence mutations within these binding sites did not significantly alter EMSA shifting patterns on longer templates but did on shorter 50-bp fragments encompassing only the region containing the binding sites. Footprinting confirmed that the regions protected for the longer mutant templates are at different positions within the intergenic region compared to those seen in the intact intergenic region. Oxidized and reduced preparations of MsvR demonstrated different EMSA binding patterns and regions of protection on the intergenic sequence, suggesting that MsvR may play a role in detecting the redox state of the cell.