4.7 Article

An integrated systems biology approach reveals differences in formate metabolism in the genus Methanothermobacter

Journal

ISCIENCE
Volume 26, Issue 10, Pages -

Publisher

CELL PRESS
DOI: 10.1016/j.isci.2023.108016

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This study investigates the metabolic mechanism of methane-producing archaea and reveals the impact of formate anabolism on carbon conversion, providing guidance for their application in power-to-gas technology and value-added chemical production.
Methanogenesis allows methanogenic archaea to generate cellular energy for their growth while producing methane. Thermophilic hydrogenotrophic species of the genus Methanothermobacter have been recognized as robust biocatalysts for a circular carbon economy and are already applied in power-to-gas technology with biomethanation, which is a platform to store renewable energy and utilize captured carbon dioxide. Here, we generated curated genome-scale metabolic reconstructions for three Methanothermobacter strains and investigated differences in the growth performance of these same strains in chemostat bioreactor experiments with hydrogen and carbon dioxide or formate as substrates. Using an integrated systems biology approach, we identified differences in formate anabolism between the strains and revealed that formate anabolism influences the diversion of carbon between biomass and methane. This finding, together with the omics datasets and the metabolic models we generated, can be implemented for biotechnological applications of Methanothermobacter in power-to-gas technology, and as a perspective, for value-added chemical production.

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