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Cell type and regulatory analysis in amphioxus illuminates evolutionary origin of the vertebrate head

Author

Listed:
  • Anna Markos

    (Institute of Molecular Genetics of the Czech Academy of Sciences)

  • Jan Kubovciak

    (Institute of Molecular Genetics of the Czech Academy of Sciences)

  • Simona Mikula Mrstakova

    (Institute of Molecular Genetics of the Czech Academy of Sciences)

  • Anna Zitova

    (Institute of Molecular Genetics of the Czech Academy of Sciences)

  • Jan Paces

    (Institute of Molecular Genetics of the Czech Academy of Sciences)

  • Simona Machacova

    (Institute of Molecular Genetics of the Czech Academy of Sciences)

  • Zbynek Kozmik-Jr

    (Institute of Molecular Genetics of the Czech Academy of Sciences)

  • Zbynek Kozmik

    (Institute of Molecular Genetics of the Czech Academy of Sciences)

  • Iryna Kozmikova

    (Institute of Molecular Genetics of the Czech Academy of Sciences)

Abstract

To shed light on the enigmatic origin of the vertebrate head, our study employs an integrated approach that combines single-cell transcriptomics, perturbations in signaling pathways, and cis-regulatory analysis in amphioxus. As a representative of a basal lineage within the chordate phylum, amphioxus retains many characteristics thought to have been present in the common chordate ancestor. Through cell type characterization, we identify the presence of prechordal plate-like, pre-migratory, and migratory neural crest-like cell populations in the developing amphioxus embryo. Functional analysis establishes conserved roles of the Nodal and Hedgehog signaling pathways in prechordal plate-like populations, and of the Wnt signaling pathway in neural crest-like populations’ development. Furthermore, our trans-species transgenic experiments highlight similarities in the regulatory environments that drive neural crest-like and prechordal plate-like developmental programs in both vertebrates and amphioxus. Our findings provide evidence that the key features of vertebrate head development can be traced back to the common ancestor of all chordates.

Suggested Citation

  • Anna Markos & Jan Kubovciak & Simona Mikula Mrstakova & Anna Zitova & Jan Paces & Simona Machacova & Zbynek Kozmik-Jr & Zbynek Kozmik & Iryna Kozmikova, 2024. "Cell type and regulatory analysis in amphioxus illuminates evolutionary origin of the vertebrate head," Nature Communications, Nature, vol. 15(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-52938-7
    DOI: 10.1038/s41467-024-52938-7
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    References listed on IDEAS

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    1. Jr-Kai Yu & Yutaka Satou & Nicholas D. Holland & Tadasu Shin-I & Yuji Kohara & Noriyuki Satoh & Marianne Bronner-Fraser & Linda Z. Holland, 2007. "Axial patterning in cephalochordates and the evolution of the organizer," Nature, Nature, vol. 445(7128), pages 613-617, February.
    2. Alberto Stolfi & Kerrianne Ryan & Ian A. Meinertzhagen & Lionel Christiaen, 2015. "Migratory neuronal progenitors arise from the neural plate borders in tunicates," Nature, Nature, vol. 527(7578), pages 371-374, November.
    3. Karin D. Prummel & Christopher Hess & Susan Nieuwenhuize & Hugo J. Parker & Katherine W. Rogers & Iryna Kozmikova & Claudia Racioppi & Eline C. Brombacher & Anna Czarkwiani & Dunja Knapp & Sibylle Bur, 2019. "A conserved regulatory program initiates lateral plate mesoderm emergence across chordates," Nature Communications, Nature, vol. 10(1), pages 1-15, December.
    4. Ryoko Horie & Alex Hazbun & Kai Chen & Chen Cao & Michael Levine & Takeo Horie, 2018. "Shared evolutionary origin of vertebrate neural crest and cranial placodes," Nature, Nature, vol. 560(7717), pages 228-232, August.
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