Atmospheric hydrogen oxidation extends to the domain archaea

Author:

Leung Pok Man,Grinter RhysORCID,Tudor-Matthew Eve,Jimenez Luis,Lee Han,Milton Michael,Hanchapola Iresha,Tanuwidjaya Erwin,Peach Hanna A.,Carere Carlo R.,Stott Matthew B.,Schittenhelm Ralf B.,Greening ChrisORCID

Abstract

AbstractDiverse aerobic bacteria use atmospheric hydrogen (H2) and carbon monoxide (CO) as energy sources to support growth and survival. Though recently discovered, trace gas oxidation is now recognised as a globally significant process that serves as the main sink in the biogeochemical H2cycle and sustains microbial biodiversity in oligotrophic ecosystems. While trace gas oxidation has been reported in nine phyla of bacteria, it was not known whether archaea also use atmospheric H2. Here we show that a thermoacidophilic archaeon,Acidianus brierleyi(Thermoproteota), constitutively consumes H2and CO to sub-atmospheric levels. Oxidation occurred during both growth and survival across a wide range of temperatures (10 to 70°C). Genomic analysis demonstrated thatA. brierleyiencodes a canonical carbon monoxide dehydrogenase and, unexpectedly, four distinct [NiFe]-hydrogenases from subgroups not known to mediate aerobic H2uptake. Quantitative proteomic analyses showed thatA. brierleyidifferentially produced these enzymes in response to electron donor and acceptor availability. A previously unidentified group 1 [NiFe]-hydrogenase, with a unique genetic arrangement, is constitutively expressed and upregulated during stationary phase and aerobic hydrogenotrophic growth. Another archaeon,Metallosphaera sedula, was also found to oxidize atmospheric H2. These results suggest that trace gas oxidation is a common trait of aerobic archaea, which likely plays a role in their survival and niche expansion, including during dispersal through temperate environments. These findings also demonstrate that atmospheric H2consumption is a cross-domain phenomenon, suggesting an ancient origin of this trait, and identify previously unknown microbial and enzymatic sinks of atmospheric H2and CO.

Publisher

Cold Spring Harbor Laboratory

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