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<i>Hox</i> genes control homocercal caudal fin development and evolution

Nicolás Cumplido, Gloria Arratia, Thomas Desvignes, Salomé Muñoz‐Sánchez, John H. Postlethwait, Miguel L. Allende

2024Science Advances19 citationsDOIOpen Access PDF

Abstract

Ancient bony fishes had heterocercal tails, like modern sharks and sturgeons, with asymmetric caudal fins and a vertebral column extending into an elongated upper lobe. Teleost fishes, in contrast, developed a homocercal tail characterized by two separate equal-sized fin lobes and the body axis not extending into the caudal fin. A similar heterocercal-to-homocercal transition occurs during teleost ontogeny, although the underlying genetic and developmental mechanisms for either transition remain unresolved. Here, we investigated the role of hox13 genes in caudal fin formation as these genes control posterior identity in animals. Analysis of expression profiles of zebrafish hox13 paralogs and phenotypes of CRISPR/Cas9-induced mutants showed that double hoxb13a and hoxc13a mutants fail to form a caudal fin. Furthermore, single mutants display heterocercal-like morphologies not seen since Mesozoic fossil teleosteomorphs. Relaxation of functional constraints after the teleost genome duplication may have allowed hox13 duplicates to neo- or subfunctionalize, ultimately contributing to the evolution of a homocercal tail in teleost fishes.

Topics & Concepts

Hox geneBiologyZebrafishFinGene duplicationAnatomyFish finEvolutionary biologyPhenotypeGeneDorsal finGeneticsFish <Actinopterygii>DorsumGene expressionFisheryMaterials scienceComposite materialDevelopmental Biology and Gene RegulationCongenital heart defects researchPaleontology and Evolutionary Biology
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