Adaptive Evolution of Pelvic Reduction in Sticklebacks by Recurrent Deletion of a <i>Pitx1</i> Enhancer

Yingguang Frank Chan(Howard Hughes Medical Institute), Melissa E. Marks(Howard Hughes Medical Institute), Felicity C. Jones(Howard Hughes Medical Institute), Guadalupe Villarreal(Howard Hughes Medical Institute), Michael D. Shapiro(Howard Hughes Medical Institute), Shannon D. Brady(Howard Hughes Medical Institute), Audrey M. Southwick(Stanford University), Devin Absher(HudsonAlpha Institute for Biotechnology), Jane Grimwood(HudsonAlpha Institute for Biotechnology), Jeremy Schmutz(HudsonAlpha Institute for Biotechnology), R Myers(HudsonAlpha Institute for Biotechnology), Dmitri A. Petrov(Stanford University), Bjarni Jónsson(Shandong Freshwater Fisheries Research Institute), Dolph Schluter(University of British Columbia), Michael A. Bell(Stony Brook University), David M. Kingsley(Howard Hughes Medical Institute)
Science
December 10, 2009
10.1126/science.1182213
Cited by 1,062Open Access
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Abstract

The molecular mechanisms underlying major phenotypic changes that have evolved repeatedly in nature are generally unknown. Pelvic loss in different natural populations of threespine stickleback fish has occurred through regulatory mutations deleting a tissue-specific enhancer of the Pituitary homeobox transcription factor 1 (Pitx1) gene. The high prevalence of deletion mutations at Pitx1 may be influenced by inherent structural features of the locus. Although Pitx1 null mutations are lethal in laboratory animals, Pitx1 regulatory mutations show molecular signatures of positive selection in pelvic-reduced populations. These studies illustrate how major expression and morphological changes can arise from single mutational leaps in natural populations, producing new adaptive alleles via recurrent regulatory alterations in a key developmental control gene.

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