Authors
Philip H Woods, Daan R Speth, Rafael Laso-Pérez, Daniel R Utter, S Emil Ruff, Victoria J Orphan
Published in
Science advances. Volume 11. Issue 25. Pages eadq5232. Jun 20, 2025. Epub Jun 20, 2025.
Abstract
Despite their large environmental impact and multiple independent emergences, the processes leading to the evolution of anaerobic methanotrophic archaea (ANME) remain unclear. This work uses comparative metagenomics of a recently evolved but understudied ANME group, "Candidatus Methanovorans" (ANME-3), to identify evolutionary processes and innovations at work in ANME, which may be obscured in earlier evolved lineages. We identified horizontal transfer of hdrA homologs and convergent evolution in carbon and energy metabolic genes as potential early steps in Methanovorans evolution. We also identified the erosion of genes required for methylotrophic methanogenesis along with horizontal acquisition of multiheme cytochromes and other loci uniquely associated with ANME. The assembly and comparative analysis of multiple Methanovorans genomes offers important functional context for understanding the niche-defining metabolic differences between methane-oxidizing ANME and their methanogen relatives. Furthermore, this work illustrates the multiple evolutionary modes at play in the transition to a globally important metabolic niche.
PMID:
40540566
Bibliographic data and abstract were imported from PubMed on 21 Jun 2025.
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