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The loci of behavioral evolution: evidence that Fas2 and tilB underlie differences in pupation site choice behavior between Drosophila melanogaster and D. simulans.

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The behaviors of closely related species can be remarkably different, and these differences have important ecological and evolutionary consequences. While the recent boom in genotype-phenotype studies has led to a… Click to show full abstract

The behaviors of closely related species can be remarkably different, and these differences have important ecological and evolutionary consequences. While the recent boom in genotype-phenotype studies has led to a greater understanding of the genetic architecture and evolution of a variety of traits, studies identifying the genetic basis of behaviors are, comparatively, still lacking. This is likely because they are complex and environmentally sensitive phenotypes, making them difficult to measure reliably for association studies. The Drosophila species complex holds promise for addressing these challenges, as the behaviors of closely related species can be readily assayed in a common environment. Here, we investigate the genetic basis of an evolved behavioral difference, pupation site choice, between Drosophila melanogaster and D. simulans. In this study, we demonstrate a significant contribution of the X chromosome to the difference in pupation site choice behavior between these species. Using a panel of X-chromosome deficiencies, we screened the majority of the X chromosome for causal loci, and identified two regions associated with this X-effect. We then collect gene disruption and RNAi data supporting a single gene that affects pupation behavior within each region: Fas2 and tilB. Finally, we show that differences in tilB expression correlate with the differences in pupation site choice behavior between species. This evidence associating two genes with differences in a complex, environmentally sensitive behavior represents the first step towards a functional and evolutionary understanding of this behavioral divergence.

Keywords: pupation site; site choice; behavior

Journal Title: Molecular biology and evolution
Year Published: 2019

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