In collaboration with JEOL Ltd. and Marine Works Japan Ltd., the researchers in AIST succeeded in culturing strain RT761, a bacterium that plays an important role in methane production in deep subsurface environments such as natural gas fields.

Living organisms are classified into two groups: prokaryotes (e.g., bacteria such as lactic acid bacteria) and eukaryotes (e.g., humans, plants and animals). One of the critical differences between these two groups is the existence of a membrane surrounding genomic DNA inside the cell (i.e., nuclear membrane); no such a membrane had been discovered in prokaryotes.

A. laminutus RT761, possessed an intracellular membrane surrounding the genomic DNA, possibly leading to the revisit of prokaryotic cell concepts. In addition, the new phylum, Atribacterota, representing this strain is known to be widely distributed in anoxic, deep subsurface environments where biogenic methane is deposited (such as natural gas fields, hydrate-bearing sediments, etc.). Therefore, the ecological characterization of Atribacterota members in future study directly links to understand biogenic methane production in deep biosphere.

In addition to the ecological characterization, the researchers are planning to study on physiological and cellular functions and evolution of this unique cell structure, i.e., intracellular membrane, in the Atribacterota phylum.