Literature DB >> 27749816

Thermophilic archaea activate butane via alkyl-coenzyme M formation.

Rafael Laso-Pérez1,2, Gunter Wegener1,2,3, Katrin Knittel1, Friedrich Widdel1, Katie J Harding1, Viola Krukenberg1,2, Dimitri V Meier1, Michael Richter1, Halina E Tegetmeyer2,4, Dietmar Riedel5, Hans-Hermann Richnow6, Lorenz Adrian6, Thorsten Reemtsma6, Oliver J Lechtenfeld6, Florin Musat1,6.   

Abstract

The anaerobic formation and oxidation of methane involve unique enzymatic mechanisms and cofactors, all of which are believed to be specific for C1-compounds. Here we show that an anaerobic thermophilic enrichment culture composed of dense consortia of archaea and bacteria apparently uses partly similar pathways to oxidize the C4 hydrocarbon butane. The archaea, proposed genus 'Candidatus Syntrophoarchaeum', show the characteristic autofluorescence of methanogens, and contain highly expressed genes encoding enzymes similar to methyl-coenzyme M reductase. We detect butyl-coenzyme M, indicating archaeal butane activation analogous to the first step in anaerobic methane oxidation. In addition, Ca. Syntrophoarchaeum expresses the genes encoding β-oxidation enzymes, carbon monoxide dehydrogenase and reversible C1 methanogenesis enzymes. This allows for the complete oxidation of butane. Reducing equivalents are seemingly channelled to HotSeep-1, a thermophilic sulfate-reducing partner bacterium known from the anaerobic oxidation of methane. Genes encoding 16S rRNA and methyl-coenzyme M reductase similar to those identifying Ca. Syntrophoarchaeum were repeatedly retrieved from marine subsurface sediments, suggesting that the presented activation mechanism is naturally widespread in the anaerobic oxidation of short-chain hydrocarbons.

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Year:  2016        PMID: 27749816     DOI: 10.1038/nature20152

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   49.962


  76 in total

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Review 5.  The Physiology of Phagocytosis in the Context of Mitochondrial Origin.

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