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Microbial predators form a new supergroup of eukaryotes

Author

Listed:
  • Denis V. Tikhonenkov

    (Russian Academy of Sciences
    University of Tyumen)

  • Kirill V. Mikhailov

    (Lomonosov Moscow State University
    Russian Academy of Sciences)

  • Ryan M. R. Gawryluk

    (University of Victoria)

  • Artem O. Belyaev

    (Russian Academy of Sciences
    Penza State University)

  • Varsha Mathur

    (University of British Columbia
    University of Oxford)

  • Sergey A. Karpov

    (Russian Academy of Sciences
    Saint Petersburg State University)

  • Dmitry G. Zagumyonnyi

    (Russian Academy of Sciences
    University of Tyumen)

  • Anastasia S. Borodina

    (Russian Academy of Sciences
    Voronezh State University)

  • Kristina I. Prokina

    (Russian Academy of Sciences
    CNRS, Université Paris-Saclay, AgroParisTech)

  • Alexander P. Mylnikov

    (Russian Academy of Sciences)

  • Vladimir V. Aleoshin

    (Lomonosov Moscow State University
    Russian Academy of Sciences)

  • Patrick J. Keeling

    (University of British Columbia)

Abstract

Molecular phylogenetics of microbial eukaryotes has reshaped the tree of life by establishing broad taxonomic divisions, termed supergroups, that supersede the traditional kingdoms of animals, fungi and plants, and encompass a much greater breadth of eukaryotic diversity1. The vast majority of newly discovered species fall into a small number of known supergroups. Recently, however, a handful of species with no clear relationship to other supergroups have been described2–4, raising questions about the nature and degree of undiscovered diversity, and exposing the limitations of strictly molecular-based exploration. Here we report ten previously undescribed strains of microbial predators isolated through culture that collectively form a diverse new supergroup of eukaryotes, termed Provora. The Provora supergroup is genetically, morphologically and behaviourally distinct from other eukaryotes, and comprises two divergent clades of predators—Nebulidia and Nibbleridia—that are superficially similar to each other, but differ fundamentally in ultrastructure, behaviour and gene content. These predators are globally distributed in marine and freshwater environments, but are numerically rare and have consequently been overlooked by molecular-diversity surveys. In the age of high-throughput analyses, investigation of eukaryotic diversity through culture remains indispensable for the discovery of rare but ecologically and evolutionarily important eukaryotes.

Suggested Citation

  • Denis V. Tikhonenkov & Kirill V. Mikhailov & Ryan M. R. Gawryluk & Artem O. Belyaev & Varsha Mathur & Sergey A. Karpov & Dmitry G. Zagumyonnyi & Anastasia S. Borodina & Kristina I. Prokina & Alexander, 2022. "Microbial predators form a new supergroup of eukaryotes," Nature, Nature, vol. 612(7941), pages 714-719, December.
    • Handle: RePEc:nat:nature:v:612:y:2022:i:7941:d:10.1038_s41586-022-05511-5
    DOI: 10.1038/s41586-022-05511-5
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    Cited by:

    1. Huang Li & Soujanya Akella & Carina Engstler & Joy J. Omini & Moira Rodriguez & Toshihiro Obata & Chris Carrie & Heriberto Cerutti & Jeffrey P. Mower, 2024. "Recurrent evolutionary switches of mitochondrial cytochrome c maturation systems in Archaeplastida," Nature Communications, Nature, vol. 15(1), pages 1-13, December.

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