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Distinct ossification trade-offs illuminate the shoulder girdle reconfiguration at the water-to-land transition

Author

Listed:
  • Janet Wei

    (Rutgers the State University of New Jersey)

  • Thomas W. P. Wood

    (Rutgers the State University of New Jersey)

  • Kathleen Flaherty

    (Rutgers the State University of New Jersey)

  • Olivia E. Fitch

    (Michigan State University)

  • Shahid Ali

    (University of Chicago)

  • Alyssa Enny

    (Rutgers the State University of New Jersey)

  • Ali Andrescavage

    (Rutgers the State University of New Jersey)

  • Danielle Brazer

    (Rutgers the State University of New Jersey)

  • Dina Navon

    (INSPIRE Program, Robert Wood Johnson Medical School
    University of the Fraser Valley)

  • Hannah E. Cohen

    (Rutgers the State University of New Jersey)

  • Derek Gordon

    (Rutgers the State University of New Jersey)

  • Anusha Shanabag

    (Rutgers the State University of New Jersey)

  • Shunya Kuroda

    (Rutgers the State University of New Jersey)

  • Thomas A. Stewart

    (University Park)

  • Ingo Braasch

    (Michigan State University)

  • Tetsuya Nakamura

    (Rutgers the State University of New Jersey)

Abstract

The mechanisms of the pectoral girdle transformation at the origin of terrestrial locomotion in vertebrates remain an outstanding problem. The loss of intramembranous bones and the enlargement of endochondral bones resulted in the disarticulation of the pectoral girdle from the skull and the formation of the neck during the fish-to-tetrapod transition. Despite the functional implications of this skeletal shift in the emergence of terrestrial vertebrates, the underlying genetic-developmental alterations have remained enigmatic. Here, we show that in zebrafish pectoral girdle mesodermal cells expressing gli3, a transcription factor gene in the Hedgehog signaling pathway, differentiate into both intramembranous and endochondral bones. Intriguingly, Gli and Hedgehog compound knockout fish exhibited an unexpected combination of actinopterygian fish and stem-tetrapod pectoral girdle characteristics. These ontogenetic and anatomical data suggest that a trade-off between the two distinct ossification pathways is a deeply embedded developmental program in bony fishes and that tuning of this trade-off can generate novel pectoral girdle akin to those of stem-tetrapods at the dawn of vertebrate terrestrialization.

Suggested Citation

  • Janet Wei & Thomas W. P. Wood & Kathleen Flaherty & Olivia E. Fitch & Shahid Ali & Alyssa Enny & Ali Andrescavage & Danielle Brazer & Dina Navon & Hannah E. Cohen & Derek Gordon & Anusha Shanabag & Sh, 2025. "Distinct ossification trade-offs illuminate the shoulder girdle reconfiguration at the water-to-land transition," Nature Communications, Nature, vol. 16(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-60236-z
    DOI: 10.1038/s41467-025-60236-z
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    References listed on IDEAS

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