Acetate excretion by a methanotroph, Methylocaldum marinum S8, under aerobic conditions

Methane-oxidizing bacteria (methanotrophs) often coexist with methylotrophs that utilize methanol excreted by methanotrophs. Recently, we found that a facultative methylotroph, Methyloceanibacter caenitepidi Gela4(T), possibly utilizes acetate rather than methanol in the coculture with a methanotroph, Methylocaldum marinum S8. Here, we examined the effects of oxygen concentrations on growth of and acetate excretion by M. marinum S8 in pure culture and the coculture with M. caenitepidi Gela4(T). M. marinum S8 excreted acetate during the exponential growth phase not only under microaerobic (O-2 concentrations of 3.5%-6%) but also under aerobic (O-2 concentrations of 20%-31%) conditions. RNA-Seq analyses of M. marinum S8 cells grown under aerobic conditions suggested that phosphoketolase and acetate kinase were candidate genes involved in acetate production. Nonmethylotrophic bacteria, Cupriavidus necator NBRC 102504, could grow when cocultured with M. marinum S8, also supporting the existence of methanol-independent cross-feeding from M. marinum S8 under aerobic conditions.

Automated summary

Recent research suggests that some methylotrophs may utilize acetate instead of methanol, and can excrete acetate even under aerobic conditions. Additionally, the shared culture of M. marinum S8 has an influence on nonmethylotrophic bacteria in the environment.