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Longer or shorter spines: Reciprocal trait evolution in stickleback via triallelic regulatory changes in <i>Stanniocalcin2a</i>

Garrett A. Roberts Kingman, David Lee, Felicity C. Jones, Danielle Desmet, Michael A. Bell, David M. Kingsley

2021Proceedings of the National Academy of Sciences29 citationsDOIOpen Access PDF

Abstract

Significance Across a broad range of species, evolution has modified a common vertebrate body plan to produce endless forms most beautiful. A key unanswered question is whether diverse morphological changes in a common structure arise from modifying different genes or the same genes in different ways. Many natural populations of threespine stickleback have evolved either longer or shorter dorsal and pelvic spines. Here, we identify reciprocal regulatory changes in an ancient enhancer of the bone growth inhibitor, Stanniocalcin2a , as an underlying genetic cause. Many other stickleback loci similarly show three or more major classes of variants across populations; we suggest that diverse alleles at key loci may represent a common mechanism for producing diverse phenotypes from a smaller toolkit of genes.

Topics & Concepts

SticklebackBiologyBody planEvolutionary biologyVertebrateGeneTraitAllelePhenotypeEnhancerGeneticsFish <Actinopterygii>Gene expressionFisheryProgramming languageComputer sciencePhysiological and biochemical adaptationsGenetic diversity and population structureAnimal Behavior and Reproduction
Longer or shorter spines: Reciprocal trait evolution in stickleback via triallelic regulatory changes in <i>Stanniocalcin2a</i> | Litcius