Skip to main page content
U.S. flag

An official website of the United States government

Dot gov

The .gov means it’s official.
Federal government websites often end in .gov or .mil. Before sharing sensitive information, make sure you’re on a federal government site.

Https

The site is secure.
The https:// ensures that you are connecting to the official website and that any information you provide is encrypted and transmitted securely.

Access keys NCBI Homepage MyNCBI Homepage Main Content Main Navigation
. 2025 Jul 21.
doi: 10.1111/1749-4877.13018. Online ahead of print.

Comparative Genomic Screening Identifies Developmental Constraint Loci Underscoring the Phenotypic Evolution of Syngnathids

Zheng Dong  1 Chen Wang  1 Shukai Dong  1 Yicheng Peng  1 Jierui Guo  1 Chuchu Zhang  1 Zhaopeng Xu  1 Zixiang Wu  1 Bo Wang  1 Qingming Qu  1
Affiliations

Comparative Genomic Screening Identifies Developmental Constraint Loci Underscoring the Phenotypic Evolution of Syngnathids

Zheng Dong et al. Integr Zool. .

Abstract

Seahorses and their relatives (syngnathids) exhibit remarkable diversity in morphology and function, characterized by their distinctive body shapes and specialized feeding mechanisms. Despite recent advances in uncovering the genetic basis of some traits, the genotype-phenotype map in syngnathids remains incomplete. In this study, we employed forward-genomic approaches and developed a method to enrich for human disease amino acid loci at a genomic scale. Our aim was to identify genetic loci associated with fin size reduction, tooth loss, and spinal curvature in syngnathids. Intriguingly, we identified a convergent amino acid change in the lat4a gene shared by syngnathids and some flying fishes, with in vitro analysis confirming its role in fin size evolution in both lineages. While genes critical for tooth development are conserved in syngnathids, the absence of key regulatory elements, such as pitx2, likely contributes to tooth loss. Additionally, we implicated col6a3 in spinal curvature development in seadragons. These findings reveal novel genetic signatures and developmental constraints underlying syngnathid diversity, demonstrating the utility of comparative genomics and targeted gene enrichment in exploring vertebrate evolution.

Keywords: amino acid change; comparative genomic; syngnathids.

PubMed Disclaimer

References

    1. Adzhubei, I. A., S. Schmidt, L. Peshkin, et al. 2010. “A Method and Server for Predicting Damaging Missense Mutations.” Nature Methods 7: 248–249.
    1. Ashley‐ross, M. A. 2002. “Mechanical Properties of the Dorsal Fin Muscle of Seahorse (Hippocampus) and Pipefish (Syngnathus).” Journal of Experimental Zoology 293: 561–577.
    1. Balic, A., and I. Thesleff. 2015. “Chapter Seven—Tissue Interactions Regulating Tooth Development and Renewal.” In Current Topics in Developmental Biology, edited by C. Yang, 157–186. Academic Press.
    1. Beck, E. A., H. M. Healey, C. M. Small, et al. 2022. “Advancing Human Disease Research with Fish Evolutionary Mutant Models.” Trends in Genetics 38: 22–44.
    1. Bei, M. 2009. “Molecular Genetics of Tooth Development.” Current Opinion in Genetics & Development 19: 504–510.

LinkOut - more resources