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Reading and editing the Pleurodeles waltl genome reveals novel features of tetrapod regeneration

Author

Listed:
  • Ahmed Elewa

    (Karolinska Institute)

  • Heng Wang

    (Huazhong Agricultural University)

  • Carlos Talavera-López

    (Karolinska Institute
    The Francis Crick Institute)

  • Alberto Joven

    (Karolinska Institute)

  • Gonçalo Brito

    (Karolinska Institute)

  • Anoop Kumar

    (Karolinska Institute)

  • L. Shahul Hameed

    (Karolinska Institute)

  • May Penrad-Mobayed

    (CNRS & University Paris-Diderot)

  • Zeyu Yao

    (Karolinska Institute)

  • Neda Zamani

    (Uppsala University)

  • Yamen Abbas

    (Harvard Stem Cell Institute, Harvard University)

  • Ilgar Abdullayev

    (Karolinska Institute
    Ludwig Institute for Cancer Research)

  • Rickard Sandberg

    (Karolinska Institute
    Ludwig Institute for Cancer Research)

  • Manfred Grabherr

    (Uppsala University)

  • Björn Andersson

    (Karolinska Institute)

  • András Simon

    (Karolinska Institute)

Abstract

Salamanders exhibit an extraordinary ability among vertebrates to regenerate complex body parts. However, scarce genomic resources have limited our understanding of regeneration in adult salamanders. Here, we present the ~20 Gb genome and transcriptome of the Iberian ribbed newt Pleurodeles waltl, a tractable species suitable for laboratory research. We find that embryonic stem cell-specific miRNAs mir-93b and mir-427/430/302, as well as Harbinger DNA transposons carrying the Myb-like proto-oncogene have expanded dramatically in the Pleurodeles waltl genome and are co-expressed during limb regeneration. Moreover, we find that a family of salamander methyltransferases is expressed specifically in adult appendages. Using CRISPR/Cas9 technology to perturb transcription factors, we demonstrate that, unlike the axolotl, Pax3 is present and necessary for development and that contrary to mammals, muscle regeneration is normal without functional Pax7 gene. Our data provide a foundation for comparative genomic studies that generate models for the uneven distribution of regenerative capacities among vertebrates.

Suggested Citation

  • Ahmed Elewa & Heng Wang & Carlos Talavera-López & Alberto Joven & Gonçalo Brito & Anoop Kumar & L. Shahul Hameed & May Penrad-Mobayed & Zeyu Yao & Neda Zamani & Yamen Abbas & Ilgar Abdullayev & Rickar, 2017. "Reading and editing the Pleurodeles waltl genome reveals novel features of tetrapod regeneration," Nature Communications, Nature, vol. 8(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-01964-9
    DOI: 10.1038/s41467-017-01964-9
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    Cited by:

    1. Aiko Kawasumi-Kita & Sang-Woo Lee & Daisuke Ohtsuka & Kaori Niimi & Yoshifumi Asakura & Keiichi Kitajima & Yuto Sakane & Koji Tamura & Haruki Ochi & Ken-ichi T. Suzuki & Yoshihiro Morishita, 2024. "hoxc12/c13 as key regulators for rebooting the developmental program in Xenopus limb regeneration," Nature Communications, Nature, vol. 15(1), pages 1-14, December.

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