# Gene regulatory programs underlying diversification of facial ligaments and tendons in zebrafish

**Authors:** Ryan R. Roberts, Arshia Bhojwani, Kuo-Chang Tseng, Kelsey Elliott, Hung-Jhen Chen, Lauren Teubner, Desmarie Sherwood, Joanna Smeeton, Cameron L. Miller, Pavan K. Nayak, Arul Subramanian, Thomas F. Schilling, Amy E. Merrill, J. Gage Crump

PMC · DOI: 10.1242/dev.205045 · Development (Cambridge, England) · 2026-02-05

## TL;DR

This study explores how different facial ligaments and tendons develop in zebrafish by analyzing gene activity and regulatory programs.

## Contribution

The study identifies gene regulatory programs and enhancers specific to facial connective tissues in zebrafish.

## Key findings

- Single-cell datasets reveal distinct cell clusters and subtypes in zebrafish facial connective tissues.
- Enhancers driving transgenic activity in ligaments and other tissues were identified.
- Nkx3.2 is crucial for the joint-proximal domain of jaw ligaments, with loss observed in mutants.

## Abstract

Whereas ligaments hold skeletal elements together, tendons bridge the musculature with the skeleton. How connective tissues of the right type and function are specified in distinct regions of the developing body remains unclear. Here, we have generated single-cell datasets of RNA expression and chromatin accessibility for scxa:mCherry+ connective tissues of the developing zebrafish face. We identified cell clusters corresponding to tendon, ligament, periligament, perichondrium and other types, as well as tendon and ligament subtypes with an osteogenic signature that may explain the remodeling of ligament-bone interfaces and the formation of sesamoid bones. We further identified several enhancers driving spatially restricted transgenic activity in ligaments, periligament tissue and other connective tissues. By utilizing a ligament-specific photoconvertible nlsEOS transgenic line, we revealed directional growth of ligaments. In addition, we found that nkx3.2 is expressed within the joint-proximal domain of the major jaw-stabilizing ligament, with this domain being lost in nkx3.2 mutants. Our study reveals distinct gene regulatory programs for jaw connective tissue diversification and provides a mechanism underlying the propensity of tendons and ligaments to ossify in normal and pathological contexts.

Summary: Single-cell analysis and toolkit generation in zebrafish identifies gene regulatory codes and growth dynamics of distinct facial ligaments and tendons.

## Linked entities

- **Genes:** NKX3-2 (NK3 homeobox 2) [NCBI Gene 579]
- **Species:** Danio rerio (taxon 7955)

## Full-text entities

- **Genes:** nkx3-2 (NK3 homeobox 2) [NCBI Gene 337865] {aka bapx1, nkx3.2}, scxa (scleraxis bHLH transcription factor a) [NCBI Gene 100034489] {aka TCF15, si:ch211-251g8.3}
- **Chemicals:** nlsEOS (-)
- **Species:** Danio rerio (leopard danio, species) [taxon 7955]

## Full text

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## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12912267/full.md

## References

45 references — full list in the complete paper: https://tomesphere.com/paper/PMC12912267/full.md

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Source: https://tomesphere.com/paper/PMC12912267