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Genomic and functional adaptation in surface ocean planktonic prokaryotes

Author

Listed:
  • Shibu Yooseph

    (J. Craig Venter Institute)

  • Kenneth H. Nealson

    (J. Craig Venter Institute)

  • Douglas B. Rusch

    (J. Craig Venter Institute)

  • John P. McCrow

    (J. Craig Venter Institute)

  • Christopher L. Dupont

    (J. Craig Venter Institute)

  • Maria Kim

    (J. Craig Venter Institute)

  • Justin Johnson

    (J. Craig Venter Institute)

  • Robert Montgomery

    (J. Craig Venter Institute)

  • Steve Ferriera

    (J. Craig Venter Institute)

  • Karen Beeson

    (J. Craig Venter Institute)

  • Shannon J. Williamson

    (J. Craig Venter Institute)

  • Andrey Tovchigrechko

    (J. Craig Venter Institute)

  • Andrew E. Allen

    (J. Craig Venter Institute)

  • Lisa A. Zeigler

    (J. Craig Venter Institute)

  • Granger Sutton

    (J. Craig Venter Institute)

  • Eric Eisenstadt

    (J. Craig Venter Institute)

  • Yu-Hui Rogers

    (J. Craig Venter Institute)

  • Robert Friedman

    (J. Craig Venter Institute)

  • Marvin Frazier

    (J. Craig Venter Institute)

  • J. Craig Venter

    (J. Craig Venter Institute)

Abstract

The understanding of marine microbial ecology and metabolism has been hampered by the paucity of sequenced reference genomes. To this end, we report the sequencing of 137 diverse marine isolates collected from around the world. We analysed these sequences, along with previously published marine prokaryotic genomes, in the context of marine metagenomic data, to gain insights into the ecology of the surface ocean prokaryotic picoplankton (0.1–3.0 μm size range). The results suggest that the sequenced genomes define two microbial groups: one composed of only a few taxa that are nearly always abundant in picoplanktonic communities, and the other consisting of many microbial taxa that are rarely abundant. The genomic content of the second group suggests that these microbes are capable of slow growth and survival in energy-limited environments, and rapid growth in energy-rich environments. By contrast, the abundant and cosmopolitan picoplanktonic prokaryotes for which there is genomic representation have smaller genomes, are probably capable of only slow growth and seem to be relatively unable to sense or rapidly acclimate to energy-rich conditions. Their genomic features also lead us to propose that one method used to avoid predation by viruses and/or bacterivores is by means of slow growth and the maintenance of low biomass.

Suggested Citation

  • Shibu Yooseph & Kenneth H. Nealson & Douglas B. Rusch & John P. McCrow & Christopher L. Dupont & Maria Kim & Justin Johnson & Robert Montgomery & Steve Ferriera & Karen Beeson & Shannon J. Williamson , 2010. "Genomic and functional adaptation in surface ocean planktonic prokaryotes," Nature, Nature, vol. 468(7320), pages 60-66, November.
    • Handle: RePEc:nat:nature:v:468:y:2010:i:7320:d:10.1038_nature09530
    DOI: 10.1038/nature09530
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    Cited by:

    1. Ari J S Ferreira & Rania Siam & João C Setubal & Ahmed Moustafa & Ahmed Sayed & Felipe S Chambergo & Adam S Dawe & Mohamed A Ghazy & Hazem Sharaf & Amged Ouf & Intikhab Alam & Alyaa M Abdel-Haleem & H, 2014. "Core Microbial Functional Activities in Ocean Environments Revealed by Global Metagenomic Profiling Analyses," PLOS ONE, Public Library of Science, vol. 9(6), pages 1-11, June.
    2. Xiaoyu Shan & Rachel E. Szabo & Otto X. Cordero, 2023. "Mutation-induced infections of phage-plasmids," Nature Communications, Nature, vol. 14(1), pages 1-10, December.
    3. Cuncong Zhong & Anna Edlund & Youngik Yang & Jeffrey S McLean & Shibu Yooseph, 2016. "Metagenome and Metatranscriptome Analyses Using Protein Family Profiles," PLOS Computational Biology, Public Library of Science, vol. 12(7), pages 1-22, July.

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