A non-methanogenic archaeon within the order Methanocellales

Shino Suzuki; Shun’ichi Ishii; Grayson L. Chadwick; Yugo Tanaka; Atsushi Kouzuma; Kazuya Watanabe; Fumio Inagaki; Mads Albertsen; Per H. Nielsen; Kenneth H. Nealson

doi:10.1038/s41467-024-48185-5

Nature Communications (Jun 2024)

A non-methanogenic archaeon within the order Methanocellales

Shino Suzuki,
Shun’ichi Ishii,
Grayson L. Chadwick,
Yugo Tanaka,
Atsushi Kouzuma,
Kazuya Watanabe,
Fumio Inagaki,
Mads Albertsen,
Per H. Nielsen,
Kenneth H. Nealson

Affiliations

Shino Suzuki: Geobiology and Astrobiology Laboratory, RIKEN Cluster for Pioneering Research
Shun’ichi Ishii: Institute for Extra-cutting-edge Science and Technology Avant-garde Research (X-star), Japan Agency for Marine and Earth Science and Technology (JAMSTEC)
Grayson L. Chadwick: Department of Molecular and Cell Biology, University of California, Berkeley
Yugo Tanaka: School of Life Sciences, Tokyo University of Pharmacy and Life Sciences
Atsushi Kouzuma: School of Life Sciences, Tokyo University of Pharmacy and Life Sciences
Kazuya Watanabe: School of Life Sciences, Tokyo University of Pharmacy and Life Sciences
Fumio Inagaki: Advanced Institute for Marine Ecosystem Change (WPI-AIMEC), JAMSTEC
Mads Albertsen: Center for Microbial Communities, Aalborg University
Per H. Nielsen: Center for Microbial Communities, Aalborg University
Kenneth H. Nealson: Department of Earth Sciences, University of Southern California

DOI: https://doi.org/10.1038/s41467-024-48185-5
Journal volume & issue: Vol. 15, no. 1
pp. 1 – 14

Abstract

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Abstract Serpentinization, a geochemical process found on modern and ancient Earth, provides an ultra-reducing environment that can support microbial methanogenesis and acetogenesis. Several groups of archaea, such as the order Methanocellales, are characterized by their ability to produce methane. Here, we generate metagenomic sequences from serpentinized springs in The Cedars, California, and construct a circularized metagenome-assembled genome of a Methanocellales archaeon, termed Met12, that lacks essential methanogenesis genes. The genome includes genes for an acetyl-CoA pathway, but lacks genes encoding methanogenesis enzymes such as methyl-coenzyme M reductase, heterodisulfide reductases and hydrogenases. In situ transcriptomic analyses reveal high expression of a multi-heme c-type cytochrome, and heterologous expression of this protein in a model bacterium demonstrates that it is capable of accepting electrons. Our results suggest that Met12, within the order Methanocellales, is not a methanogen but a CO2-reducing, electron-fueled acetogen without electron bifurcation.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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