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Evolution of spatial and temporal cis-regulatory divergence in sticklebacks.

Katya L MackTyler A SquareBin ZhaoCraig T MillerHunter B Fraser
Published in: Molecular biology and evolution (2023)
Cis-regulatory changes are thought to play a major role in adaptation. Threespine sticklebacks have repeatedly colonized freshwater habitats in the Northern Hemisphere, where they have evolved a suite of phenotypes that distinguish them from marine populations, including changes in physiology, behavior, and morphology. To understand the role of gene regulatory evolution in adaptive divergence, here we investigate cis-regulatory changes in gene expression between marine and freshwater ecotypes through allele-specific expression (ASE) in F1 hybrids. Surveying seven ecologically relevant tissues, including three sampled across two developmental stages, we identified cis-regulatory divergence affecting a third of genes, nearly half of which were tissue-specific. Next, we compared allele-specific expression in dental tissues at two timepoints to characterize cis-regulatory changes during development between marine and freshwater fish. Applying a genome-wide test for selection on cis-regulatory changes, we find evidence for lineage-specific selection on several processes between ecotypes, including the Wnt signaling pathway in dental tissues. Finally, we show that genes with ASE, particularly those that are tissue-specific, are strongly enriched in genomic regions of repeated marine-freshwater divergence, supporting an important role for these cis-regulatory differences in parallel adaptive evolution of sticklebacks to freshwater habitats. Altogether, our results provide insight into the cis-regulatory landscape of divergence between stickleback ecotypes across tissues and during development and supports a fundamental role for tissue-specific cis-regulatory changes in rapid adaptation to new environments.
Keyphrases
  • gene expression
  • transcription factor
  • genome wide
  • dna methylation
  • cell proliferation
  • epithelial mesenchymal transition
  • long non coding rna
  • endoplasmic reticulum stress
  • genome wide analysis