Microbiome (Aug 2024)

CO-driven electron and carbon flux fuels synergistic microbial reductive dechlorination

  • Jingjing Wang,
  • Xiuying Li,
  • Huijuan Jin,
  • Shujing Yang,
  • Lian Yu,
  • Hongyan Wang,
  • Siqi Huang,
  • Hengyi Liao,
  • Xuhao Wang,
  • Jun Yan,
  • Yi Yang

DOI
https://doi.org/10.1186/s40168-024-01869-y
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 14

Abstract

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Abstract Background Carbon monoxide (CO), hypothetically linked to prebiotic biosynthesis and possibly the origin of the life, emerges as a substantive growth substrate for numerous microorganisms. In anoxic environments, the coupling of CO oxidation with hydrogen (H2) production is an essential source of electrons, which can subsequently be utilized by hydrogenotrophic bacteria (e.g., organohalide-respring bacteria). While Dehalococcoides strains assume pivotal roles in the natural turnover of halogenated organics and the bioremediation of chlorinated ethenes, relying on external H2 as their electron donor and acetate as their carbon source, the synergistic dynamics within the anaerobic microbiome have received comparatively less scrutiny. This study delves into the intriguing prospect of CO serving as both the exclusive carbon source and electron donor, thereby supporting the reductive dechlorination of trichloroethene (TCE). Results The metabolic pathway involved anaerobic CO oxidation, specifically the Wood-Ljungdahl pathway, which produced H2 and acetate as primary metabolic products. In an intricate microbial interplay, these H2 and acetate were subsequently utilized by Dehalococcoides, facilitating the dechlorination of TCE. Notably, Acetobacterium emerged as one of the pivotal collaborators for Dehalococcoides, furnishing not only a crucial carbon source essential for its growth and proliferation but also providing a defense against CO inhibition. Conclusions This research expands our understanding of CO’s versatility as a microbial energy and carbon source and unveils the intricate syntrophic dynamics underlying reductive dechlorination. Graphical Abstract Video Abstract

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