Project description:Anaerobic methane-producing archeon

Project description:Anaerobic methane-producing archeon

Project description:Anaerobic methane-producing archaeon

Project description:A methane-producing archaeaon

Project description:Anaerobic methane-producing archeon

Project description:Anaerobic methane-producing archeon

Project description:Anaerobic methane-producing archeon

Project description:Methanogens catalyze the critical, methane-producing step (called methanogenesis) in the anaerobic decomposition of organic matter and have applications in carbon-neutral fuel production. Here, we present the first predictive model of global gene regulation of methanogenesis in a hydrogenotrophic methanogen, Methanococcus maripaludis. We generated a comprehensive list of genes (protein-coding and non-coding) for M. maripaludis through integrated analysis of the transcriptome structure and a newly constructed Peptide Atlas. The environment and gene-regulatory influence network (EGRIN) model of the strain was constructed from a compendium of transcriptome data that was collected over 100 different steady-state and time course experiments that were performed in chemostats, or batch cultures, under a spectrum of environmental perturbations that modulated methanogenesis. We discovered that at least five regulatory mechanisms act in a combinatorial scheme to inter-coordinate key steps of methanogenesis with different processes such as motility, ATP biosynthesis, and carbon assimilation. Through a combination of genetic and environmental perturbation experiments we have validated the EGRIN-predicted role of two novel TFs in the regulation of phosphate-dependent repression of formate dehydorgenase -- a key enzyme in the methanogenesis pathway.

Project description:Methanococcus maripaludis S2 transcriptome

Project description:Time series of Methanococcus maripaludis MM901:del_MMP1100, a shift from a H2-excess and P-limiting condition to a H2-limited and P-excess condition in chemostats (growth rate held constant)