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Methanothrix is a genus of methanogenic archaea within the phylum Methanobacteriota.See the NCBI webpage on Methanothrix. Data extracted from the Methanothrix cells were first isolated from a mesophilic sewage digester but have since been found in many anaerobic and aerobic environments. Methanothrix were originally understood to be obligate anaerobes that can survive exposure to high concentrations of oxygen, but recent studies have shown at least one Candidatus operational taxonomic unit proposed to be in the Methanothrix genus not only survives but remains active in oxic soils. This proposed species, Ca. Methanothrix paradoxum, is frequently found in methane-releasing ecosystems and is the dominant methanogen in oxic soils.
Methanothrix are non-motile rod-shaped cells which connect together to form long filaments. These filaments are enclosed in a proteinaceous sheath. Methanothrix species, like their close relative Methanosarcina barkeri, have membranes entirely composed of diphytanylglycerol diethers.
When using acetate, Methanothrix species use an incomplete citric acid cycle in the oxidative direction. After formation of acetyl-CoA, the carbon-carbon bond of acetate is cleaved by a carbon monoxide dehydrogenase/acetyl-CoA synthase enzyme. The methyl moiety is transferred through multiple complexes until it is finally reduced to methane by a methyl-CoM reductase.
Methanothrix species have been observed receiving electrons to reduce carbon dioxide to methane through direct interspecies electron transfer (DIET) with Geobacter species. Geobacter sulfurreducens transfers electrons into Methanothrix cells using electrically conductive pili.
Because Methanothrix species are well adapted to survive exposure to oxygen and thrive using either acetate or carbon dioxide as a carbon substrate, they are thought to be one of the largest microbial contributors to methanogenesis on Earth.
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