Jerry S. Vande Berg scite author profile

SummaryThe anaerobic oxidation of methane (AOM) is mediated by consortia of anaerobic methane-oxidizing archaea (ANME) and their specific partner bacteria. In thermophilic AOM consortia enriched from Guaymas Basin, members of the ANME-1 clade are associated with bacteria of the HotSeep-1 cluster, which likely perform direct electron exchange via nanowires. The partner bacterium was enriched with hydrogen as sole electron donor and sulfate as electron acceptor. Based on phylogenetic, genomic and metabolic characteristics we propose to name this chemolithoautotrophic sulfate reducer Candidatus Desulfofervidus auxilii. Ca. D. auxilii grows on hydrogen at temperatures between 508C and 708C with an activity optimum at 608C and doubling time of 4-6 days. Its genome draft encodes for canonical sulfate reduction, periplasmic and soluble hydrogenases and autotrophic carbon fixation via the reductive tricarboxylic acid cycle. The presence of genes for pili formation and cytochromes, and their similarity to genes of Geobacter spp., indicate a potential for syntrophic growth via direct interspecies electron transfer when the organism grows in consortia with ANME. This first ANME-free enrichment of an AOM partner bacterium and its characterization opens the perspective for a deeper understanding of syntrophy in anaerobic methane oxidation.

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Adaptability as the key to success for the ubiquitous marine nitrite oxidizer Nitrococcus

Füssel

et al. 2017

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Flexor tendon healing and restoration of the gliding surface. An ultrastructural study in dogs.

Gelberman¹,

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The Journal of Bone & Joint Surgery

284

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Phenotypic and functional features of myofibroblasts in sheep fetal wounds

et al. 1994

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Polysulfides as Intermediates in the Oxidation of Sulfide to Sulfate by Beggiatoa spp

Berg

Schwedt

Kreutzmann

et al. 2014

Appl Environ Microbiol

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