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Extreme haplotype variation in the desiccation-tolerant clubmoss Selaginella lepidophylla

Author

Listed:
  • Robert VanBuren

    (Michigan State University
    Michigan State University)

  • Ching Man Wai

    (Michigan State University)

  • Shujun Ou

    (Michigan State University
    Michigan State University)

  • Jeremy Pardo

    (Michigan State University)

  • Doug Bryant

    (Donald Danforth Plant Science Center)

  • Ning Jiang

    (Michigan State University
    Michigan State University)

  • Todd C. Mockler

    (Donald Danforth Plant Science Center)

  • Patrick Edger

    (Michigan State University
    Michigan State University)

  • Todd P. Michael

    (J. Craig Venter Institute)

Abstract

Plant genome size varies by four orders of magnitude, and most of this variation stems from dynamic changes in repetitive DNA content. Here we report the small 109 Mb genome of Selaginella lepidophylla, a clubmoss with extreme desiccation tolerance. Single-molecule sequencing enables accurate haplotype assembly of a single heterozygous S. lepidophylla plant, revealing extensive structural variation. We observe numerous haplotype-specific deletions consisting of largely repetitive and heavily methylated sequences, with enrichment in young Gypsy LTR retrotransposons. Such elements are active but rapidly deleted, suggesting “bloat and purge” to maintain a small genome size. Unlike all other land plant lineages, Selaginella has no evidence of a whole-genome duplication event in its evolutionary history, but instead shows unique tandem gene duplication patterns reflecting adaptation to extreme drying. Gene expression changes during desiccation in S. lepidophylla mirror patterns observed across angiosperm resurrection plants.

Suggested Citation

  • Robert VanBuren & Ching Man Wai & Shujun Ou & Jeremy Pardo & Doug Bryant & Ning Jiang & Todd C. Mockler & Patrick Edger & Todd P. Michael, 2018. "Extreme haplotype variation in the desiccation-tolerant clubmoss Selaginella lepidophylla," Nature Communications, Nature, vol. 9(1), pages 1-8, December.
  • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-017-02546-5
    DOI: 10.1038/s41467-017-02546-5
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    Cited by:

    1. David Wickell & Li-Yaung Kuo & Hsiao-Pei Yang & Amra Dhabalia Ashok & Iker Irisarri & Armin Dadras & Sophie de Vries & Jan de Vries & Yao-Moan Huang & Zheng Li & Michael S. Barker & Nolan T. Hartwick , 2021. "Underwater CAM photosynthesis elucidated by Isoetes genome," Nature Communications, Nature, vol. 12(1), pages 1-13, December.

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