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Multiple parallel origins of parasitic Marine Alveolates

Author

Listed:
  • Corey C. Holt

    (University of British Columbia
    Hakai Institute)

  • Elisabeth Hehenberger

    (University of British Columbia
    Biology Centre Czech Academy of Sciences)

  • Denis V. Tikhonenkov

    (Russian Academy of Sciences
    University of Tyumen)

  • Victoria K. L. Jacko-Reynolds

    (University of British Columbia)

  • Noriko Okamoto

    (University of British Columbia
    Hakai Institute)

  • Elizabeth C. Cooney

    (University of British Columbia
    Hakai Institute)

  • Nicholas A. T. Irwin

    (University of British Columbia
    University of Oxford)

  • Patrick J. Keeling

    (University of British Columbia)

Abstract

Microbial eukaryotes are important components of marine ecosystems, and the Marine Alveolates (MALVs) are consistently both abundant and diverse in global environmental sequencing surveys. MALVs are dinoflagellates that are thought to be parasites of other protists and animals, but the lack of data beyond ribosomal RNA gene sequences from all but a few described species means much of their biology and evolution remain unknown. Using single-cell transcriptomes from several MALVs and their free-living relatives, we show that MALVs evolved independently from two distinct, free-living ancestors and that their parasitism evolved in parallel. Phylogenomics shows one subgroup (MALV-II and -IV, or Syndiniales) is related to a novel lineage of free-living, eukaryovorous predators, the eleftherids, while the other (MALV-I, or Ichthyodinida) is related to the free-living predator Oxyrrhis and retains proteins targeted to a non-photosynthetic plastid. Reconstructing the evolution of photosynthesis, plastids, and parasitism in early-diverging dinoflagellates shows a number of parallels with the evolution of their apicomplexan sisters. In both groups, similar forms of parasitism evolved multiple times and photosynthesis was lost many times. By contrast, complete loss of the plastid organelle is infrequent and, when this does happen, leaves no residual genes.

Suggested Citation

  • Corey C. Holt & Elisabeth Hehenberger & Denis V. Tikhonenkov & Victoria K. L. Jacko-Reynolds & Noriko Okamoto & Elizabeth C. Cooney & Nicholas A. T. Irwin & Patrick J. Keeling, 2023. "Multiple parallel origins of parasitic Marine Alveolates," Nature Communications, Nature, vol. 14(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-42807-0
    DOI: 10.1038/s41467-023-42807-0
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    References listed on IDEAS

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    1. Seung Yeo Moon-van der Staay & Rupert De Wachter & Daniel Vaulot, 2001. "Oceanic 18S rDNA sequences from picoplankton reveal unsuspected eukaryotic diversity," Nature, Nature, vol. 409(6820), pages 607-610, February.
    2. Ping Xu & Giovanni Widmer & Yingping Wang & Luiz S. Ozaki & Joao M. Alves & Myrna G. Serrano & Daniela Puiu & Patricio Manque & Donna Akiyoshi & Aaron J. Mackey & William R. Pearson & Paul H. Dear & A, 2004. "Correction: Corrigendum: The genome of Cryptosporidium hominis," Nature, Nature, vol. 432(7015), pages 415-415, November.
    3. Purificación López-García & Francisco Rodríguez-Valera & Carlos Pedrós-Alió & David Moreira, 2001. "Unexpected diversity of small eukaryotes in deep-sea Antarctic plankton," Nature, Nature, vol. 409(6820), pages 603-607, February.
    4. Ping Xu & Giovanni Widmer & Yingping Wang & Luiz S. Ozaki & Joao M. Alves & Myrna G. Serrano & Daniela Puiu & Patricio Manque & Donna Akiyoshi & Aaron J. Mackey & William R. Pearson & Paul H. Dear & A, 2004. "The genome of Cryptosporidium hominis," Nature, Nature, vol. 431(7012), pages 1107-1112, October.
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