Methanogenesis from acetate by cell-free extracts of the thermophilic acetotrophic methanogen Methanothrix thermophila CALS-1

Abstract

High rates of methanogenesis from acetate and ATP were observed from cell-free extracts of the thermophilic acetotrophic methanogen Methanothrix (Methanosaeta) thermophila strain CALS-1 when cultures were grown in a pH auxostat fed with acetic acid. Specific methanogenic activities ranged from 50-300 nmol min-1 (mg protein)-1, which was comparable to those for whole cells. In contrast to results with Methanosarcina spp., the reaction did not require high levels of H2 in the headspace. CO was inhibitory to methanogenesis from acetate. The inhibition by CO and the lack of effect of H2 on methanogenesis from acetate resemble previous results with whole cells of CALS-1. Protein concentrations in extracts > 5 mg/ml were required for good activity, and the optimum temperature for the methanogenesis was near 65° C. ATP was required in substrate quantities and was converted mainly to AMP. The maximum CH4/ATP stoichiometry obtained was near 1.0, consistent with acetate activation using an acetyl-CoA synthetase mechanism that converts ATP to AMP and pyrophosphate. Methanogenesis in extracts was inhibited by bromoethane sulfonate and cyanide, indicating the involvement of methylcoenzyme M methylreductase and a carbon monoxide dehydrogenase complex with methanogenesis from acetate. These results are consistent with acetyl-coenzyme A (CoA) as the form of activated acetate involved in methanogenesis from acetate in strain CALS-1, but no activity could be obtained from extracts using acetyl-CoA as a substrate.