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Brockarchaeota, a novel archaeal phylum with unique and versatile carbon cycling pathways
De Anda, V.; Chen, L.-X.; Dombrowski, N.; Hua, Z.-S.; Jiang, H.-C.; Banfield, J.F.; Li, W.-J.; Baker, B.J. (2021). Brockarchaeota, a novel archaeal phylum with unique and versatile carbon cycling pathways. Nature Comm. 12. https://doi.org/10.1038/s41467-021-22736-6
In: Nature Communications. Nature Publishing Group: London. ISSN 2041-1723; e-ISSN 2041-1723, more
Peer reviewed article  

Available in  Authors 

Author keywords
    Archaeal genomics; Metagenomics; Microbial ecology; Taxonomy

Authors  Top 
  • De Anda, V.
  • Chen, L.-X.
  • Dombrowski, N., more
  • Hua, Z.-S.
  • Jiang, H.-C.
  • Banfield, J.F.
  • Li, W.-J.
  • Baker, B.J.

Abstract
    Geothermal environments, such as hot springs and hydrothermal vents, are hotspots for carbon cycling and contain many poorly described microbial taxa. Here, we reconstructed 15 archaeal metagenome-assembled genomes (MAGs) from terrestrial hot spring sediments in China and deep-sea hydrothermal vent sediments in Guaymas Basin, Gulf of California. Phylogenetic analyses of these MAGs indicate that they form a distinct group within the TACK superphylum, and thus we propose their classification as a new phylum, ‘Brockarchaeota’, named after Thomas Brock for his seminal research in hot springs. Based on the MAG sequence information, we infer that some Brockarchaeota are uniquely capable of mediating non-methanogenic anaerobic methylotrophy, via the tetrahydrofolate methyl branch of the Wood-Ljungdahl pathway and reductive glycine pathway. The hydrothermal vent genotypes appear to be obligate fermenters of plant-derived polysaccharides that rely mostly on substrate-level phosphorylation, as they seem to lack most respiratory complexes. In contrast, hot spring lineages have alternate pathways to increase their ATP yield, including anaerobic methylotrophy of methanol and trimethylamine, and potentially use geothermally derived mercury, arsenic, or hydrogen. Their broad distribution and their apparent anaerobic metabolic versatility indicate that Brockarchaeota may occupy previously overlooked roles in anaerobic carbon cycling.

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