Furthermore, the study's innovative experimental setup involved coexisting pairs of different ciliate species, which were naturally and artificially co-cultured. Despite these artificial conditions, ...

Syngas biomethanation—converting CO/CO₂/H₂ into renewable methane—relies on coordinated microbial interactions. This study reveals that excess ...

A specialized enzyme machinery enables methanogenic microorganisms to thrive under extreme energy limitation. Methanogenic archaea use sophisticated enzyme systems to live in energy-limited anoxic ...

Archaea are small single-celled microorganisms (microbes) that form one of the three domains of cellular life, along with bacteria and eukaryotes. They do not possess a nucleus and therefore belong to ...

Featured oral presentation at Digestive Disease Week 2025 demonstrates significant modulatory effects of palatable elemental diet on methanogens in managing the gut microbiome beyond just bacteria ...

Methanogenic archaea use sophisticated enzyme systems to live in energy-limited anoxic environments. A key mechanism for saving energy is electron bifurcation, a reaction that ‘splits’ the energy of a ...