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cis-Regulatory changes in locomotor genes are associated with the evolution of burrowing behavior

Caroline K. Hu, Ryan A. York, Hillery C. Metz, Nicole L. Bedford, Hunter B. Fraser, Hopi E. Hoekstra

2022Cell Reports33 citationsDOIOpen Access PDF

Abstract

How evolution modifies complex, innate behaviors is largely unknown. Divergence in many morphological traits, and some behaviors, is linked to cis-regulatory changes in gene expression. Given this, we compare brain gene expression of two interfertile sister species of Peromyscus mice that show large and heritable differences in burrowing behavior. Species-level differential expression and allele-specific expression in F1 hybrids indicate a preponderance of cis-regulatory divergence, including many genes whose cis-regulation is affected by burrowing behavior. Genes related to locomotor coordination show the strongest signals of lineage-specific selection on burrowing-induced cis-regulatory changes. Furthermore, genetic markers closest to these candidate genes associate with variation in burrow shape in a genetic cross, suggesting an enrichment for loci affecting burrowing behavior near these candidate locomotor genes. Our results provide insight into how cis-regulated gene expression can depend on behavioral context and how this dynamic regulatory divergence between species may contribute to behavioral evolution.

Topics & Concepts

BiologyGenePeromyscusGeneticsLineage (genetic)Evolutionary biologyAllelePhenotypeContext (archaeology)Regulation of gene expressionGene expressionGene regulatory networkRegulator geneEcologyPaleontologyAnimal Behavior and ReproductionEvolution and Genetic DynamicsGenetic diversity and population structure