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Sea lamprey enlightens the origin of the coupling of retinoic acid signaling to vertebrate hindbrain segmentation

Author

Listed:
  • Alice M. H. Bedois

    (Stowers Institute for Medical Research)

  • Hugo J. Parker

    (Stowers Institute for Medical Research)

  • Andrew J. Price

    (Stowers Institute for Medical Research)

  • Jason A. Morrison

    (Stowers Institute for Medical Research)

  • Marianne E. Bronner

    (California Institute of Technology)

  • Robb Krumlauf

    (Stowers Institute for Medical Research
    Kansas University Medical Center)

Abstract

Retinoic acid (RA) is involved in antero-posterior patterning of the chordate body axis and, in jawed vertebrates, has been shown to play a major role at multiple levels of the gene regulatory network (GRN) regulating hindbrain segmentation. Knowing when and how RA became coupled to the core hindbrain GRN is important for understanding how ancient signaling pathways and patterning genes can evolve and generate diversity. Hence, we investigated the link between RA signaling and hindbrain segmentation in the sea lamprey Petromyzon marinus, an important jawless vertebrate model providing clues to decipher ancestral vertebrate features. Combining genomics, gene expression, and functional analyses of major components involved in RA synthesis (Aldh1as) and degradation (Cyp26s), we demonstrate that RA signaling is coupled to hindbrain segmentation in lamprey. Thus, the link between RA signaling and hindbrain segmentation is a pan vertebrate feature of the hindbrain and likely evolved at the base of vertebrates.

Suggested Citation

  • Alice M. H. Bedois & Hugo J. Parker & Andrew J. Price & Jason A. Morrison & Marianne E. Bronner & Robb Krumlauf, 2024. "Sea lamprey enlightens the origin of the coupling of retinoic acid signaling to vertebrate hindbrain segmentation," Nature Communications, Nature, vol. 15(1), pages 1-19, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-45911-x
    DOI: 10.1038/s41467-024-45911-x
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    References listed on IDEAS

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    1. Stephen A. Green & Marcos Simoes-Costa & Marianne E. Bronner, 2015. "Evolution of vertebrates as viewed from the crest," Nature, Nature, vol. 520(7548), pages 474-482, April.
    2. Ariel M. Pani & Erin E. Mullarkey & Jochanan Aronowicz & Stavroula Assimacopoulos & Elizabeth A. Grove & Christopher J. Lowe, 2012. "Ancient deuterostome origins of vertebrate brain signalling centres," Nature, Nature, vol. 483(7389), pages 289-294, March.
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    4. Christopher J. Lowe & D. Nathaniel Clarke & Daniel M. Medeiros & Daniel S. Rokhsar & John Gerhart, 2015. "The deuterostome context of chordate origins," Nature, Nature, vol. 520(7548), pages 456-465, April.
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    6. Megan L. Martik & Shashank Gandhi & Benjamin R. Uy & J. Andrew Gillis & Stephen A. Green & Marcos Simoes-Costa & Marianne E. Bronner, 2019. "Evolution of the new head by gradual acquisition of neural crest regulatory circuits," Nature, Nature, vol. 574(7780), pages 675-678, October.
    7. Ferdinand Marlétaz & Panos N. Firbas & Ignacio Maeso & Juan J. Tena & Ozren Bogdanovic & Malcolm Perry & Christopher D. R. Wyatt & Elisa Calle-Mustienes & Stephanie Bertrand & Demian Burguera & Rafael, 2018. "Amphioxus functional genomics and the origins of vertebrate gene regulation," Nature, Nature, vol. 564(7734), pages 64-70, December.
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