Effects of H 2 and Formate on Growth Yield and Regulation of Methanogenesis in Methanococcus maripaludis

Abstract

ABSTRACT Hydrogenotrophic methanogenic Archaea are defined by an H 2 requirement for growth. Despite this requirement, many hydrogenotrophs are also capable of growth with formate as an electron donor for methanogenesis. While certain responses of these organisms to hydrogen availability have been characterized, responses to formate starvation have not been reported. Here we report that during continuous culture of Methanococcus maripaludis under defined nutrient conditions, growth yields relative to methane production decreased markedly with either H 2 excess or formate excess. Analysis of the growth yields of several mutants suggests that this phenomenon occurs independently of the storage of intracellular carbon or a transcriptional response to methanogenesis. Using microarray analysis, we found that the expression of genes encoding coenzyme F 420 -dependent steps of methanogenesis, including one of two formate dehydrogenases, increased with H 2 starvation but with formate occurred at high levels regardless of limitation or excess. One gene, encoding H 2 -dependent methylene-tetrahydromethanopterin dehydrogenase, decreased in expression with either H 2 limitation or formate limitation. Expression of genes for the second formate dehydrogenase, molybdenum-dependent formylmethanofuran dehydrogenase, and molybdenum transport increased specifically with formate limitation. Of the two formate dehydrogenases, only the first could support growth on formate in batch culture where formate was in excess.