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Single-cell and metagenomic analyses indicate a fermentative and saccharolytic lifestyle for members of the OP9 lineage

Author

Listed:
  • Jeremy A. Dodsworth

    (School of Life Sciences, University of Nevada, Las Vegas)

  • Paul C. Blainey

    (Stanford University and Howard Hughes Medical Institute
    Present address: Department of Biological Engineering, Broad Institute and Massachusetts Institute of Technology, Cambridge, Massachusetts 02142, USA)

  • Senthil K. Murugapiran

    (School of Life Sciences, University of Nevada, Las Vegas)

  • Wesley D. Swingley

    (School of Natural Sciences, University of California, Merced
    Present address: Department of Biological Sciences, Northern Illinois University, DeKalb, Illinois, 60115 USA)

  • Christian A. Ross

    (School of Life Sciences, University of Nevada, Las Vegas)

  • Susannah G. Tringe

    (US Department of Energy Joint Genome Institute)

  • Patrick S. G. Chain

    (US Department of Energy Joint Genome Institute
    Genome Science Group, Los Alamos National Laboratory)

  • Matthew B. Scholz

    (US Department of Energy Joint Genome Institute
    Genome Science Group, Los Alamos National Laboratory)

  • Chien-Chi Lo

    (US Department of Energy Joint Genome Institute
    Genome Science Group, Los Alamos National Laboratory)

  • Jason Raymond

    (School of Earth and Space Exploration, Arizona State University)

  • Stephen R. Quake

    (Stanford University and Howard Hughes Medical Institute)

  • Brian P. Hedlund

    (School of Life Sciences, University of Nevada, Las Vegas)

Abstract

OP9 is a yet-uncultivated bacterial lineage found in geothermal systems, petroleum reservoirs, anaerobic digesters and wastewater treatment facilities. Here we use single-cell and metagenome sequencing to obtain two distinct, nearly complete OP9 genomes, one constructed from single cells sorted from hot spring sediments and the other derived from binned metagenomic contigs from an in situ-enriched cellulolytic, thermophilic community. Phylogenomic analyses support the designation of OP9 as a candidate phylum for which we propose the name ‘Atribacteria’. Although a plurality of predicted proteins is most similar to those from Firmicutes, the presence of key genes suggests a diderm cell envelope. Metabolic reconstruction from the core genome suggests an anaerobic lifestyle based on sugar fermentation by Embden–Meyerhof glycolysis with production of hydrogen, acetate and ethanol. Putative glycohydrolases and an endoglucanase may enable catabolism of (hemi)cellulose in thermal environments. This study lays a foundation for understanding the physiology and ecological role of the ‘Atribacteria’.

Suggested Citation

  • Jeremy A. Dodsworth & Paul C. Blainey & Senthil K. Murugapiran & Wesley D. Swingley & Christian A. Ross & Susannah G. Tringe & Patrick S. G. Chain & Matthew B. Scholz & Chien-Chi Lo & Jason Raymond & , 2013. "Single-cell and metagenomic analyses indicate a fermentative and saccharolytic lifestyle for members of the OP9 lineage," Nature Communications, Nature, vol. 4(1), pages 1-10, October.
    • Handle: RePEc:nat:natcom:v:4:y:2013:i:1:d:10.1038_ncomms2884
    DOI: 10.1038/ncomms2884
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