CO–Driven Bioconversion of Carbon Substrates into C2–C4 Carboxylates by Mixed Microbial Communities for Sustainable Carbon Valorization
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https://figshare.com/articles/dataset/CO_Driven_Bioconversion_of_Carbon_Substrates_into_C_sub_2_sub_C_sub_4_sub_Carboxylates_by_Mixed_Microbial_Communities_for_Sustainable_Carbon_Valorization/30165055
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As an intermediate in the CO2 reduction reaction, CO is recognized as a highly effective carbon and energy substrate for certain bacteria. Our study demonstrates that high CO concentrations (85–94%) enhance the bioconversion of carbon into short-chain carboxylates in mixed microbial communities, leading to increased acetate, propionate, and butyrate production, with C3–C4 carboxylate synthesis dependent on acetate accumulation. Microbial analysis identified Acetobacterium as the dominant genus (49.9 ± 0.7%), while CO enrichment significantly increased the abundances of Clostridium, Oscillibacter, Soehngenia, and Acetoanaerobium (p Oscillibacter sp.) via the acrylate pathway and by butyrate-producing Bin55 (Clostridium sp.) through the reverse β-oxidation pathway. This study advances our understanding of CO-driven microbial C2–C4 carboxylates production, providing a theoretical foundation for optimizing microbial communities to improve carbon utilization efficiency and facilitate the practical implementation of carbon valorization strategies.
创建时间:
2025-09-19
