| pubmed-article:18036179 | pubmed:abstractText | Methanothermobacter thermautotrophicus strain DeltaH is a model hydrogenotrophic methanogen, for which the complete genome sequence and extensive biochemical information are available. Little is known, however, about how this organism regulates its cellular functions in response to environmental stimuli. In this study, whole-genome oligonucleotide microarrays were constructed for M. thermautotrophicus and used to gain insights into how this organism responds to different environmental stimuli, including hydrogen depletion, shifts in pH and temperature and the occurrence of toxics (hydrogen peroxide and ammonia). Our analysis confirmed that methanogenesis genes (including mtd, mer, frh and mcr) were upregulated under hydrogen-limited conditions, while some of them were affected by other environmental stimuli. Concerning stress responses of this organism, several unique features were revealed. First, there was no universal stress response in this organism. Second, genes for alternative redox enzymes, such as rubrerythrin, were upregulated under the oxidative stress, but those for typical antioxidant enzymes were not. Third, genes relevant to the modification of cell surface structures were differentially expressed under stress conditions. Finally, energy-requiring CO(2) assimilation systems were downregulated under stress conditions. These findings suggest that M. thermautotrophicus has complex transcriptional regulation mechanisms that facilitate it to survive in unstable ecosystems such as an anaerobic digester. | lld:pubmed |
