Crucial step identified in the conversion of biomass to methane
Researchers find the enzymatic link in the formation of methane from fatty acids by cooperating microorganisms
pixabay.com
Study on oxidoreductase
The scientists investigated a previously uncharacterized membrane-bound oxidoreductase (EMO) from the fermenting bacterium Syntrophus aciditrophicus. They provided biochemical evidence that the heme-b cofactors of this membrane-bound oxidoreductase and a modified quinone with perfectly matched redox potentials are the main players in this microbial process. Bioinformatics analyses also suggest that these oxidoreductases are widely distributed in prokaryotes, organisms such as bacteria and archaea whose cells lack a nucleus. “The results not only close our knowledge gap on the conversion of biomass to methane,” Boll explains. “We may additionally identify EMOs as previously overlooked key components of lipid metabolism in the vast majority of all microorganisms.”
Original publication
Original publication
Agne, M., Estelmann, S., Seelmann, C. S., Kung, J., Wilkens, D., Koch, H.-G., van der Does, C., Albers, S., von Ballmoos, C., Simon, J., Boll, M.; "The missing enzymatic link in syntrophic methane formation from fatty acids"; Proceedings of the National Academy of Sciences; 2021
Organizations
Other news from the department science
Get the life science industry in your inbox
From now on, don't miss a thing: Our newsletter for biotechnology, pharma and life sciences brings you up to date every Tuesday and Thursday. The latest industry news, product highlights and innovations - compact and easy to understand in your inbox. Researched by us so you don't have to.