Genetic architecture of the developing forelegs of Drosophila prolongata ; an exaggerated weapon and ornament
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Extreme secondary sexual traits are some of the most striking phenotypes in nature. Studies on the genetics of these phenotypes have largely focused on within-species functional analyses of signalling pathways. Although useful, these do not provide insight into the evolutionary mechanisms that occur during the evolution of trait exaggeration. Drosophila prolongata offers an exceptional opportunity to explore the evolution of trait exaggeration, as it is the only species in the melanogaster species group with male-specific foreleg size exaggeration under both intra- and intersexual selection. Here, we used sex-specific RNA-seq from fore- and midleg tissues during early development and after initiation of sexually dimorphic growth between these tissues in D. prolongata . We also sampled the same developmental stages in D. carrolli (~4MYA divergence) and D. melanogaster (~20MYA). Using comparisons of gene expression between sexes, species, tissues, and developmental stages, we found a positive relationship between the number, but not the magnitude of differential expression of sex-biased genes, with the extent of phenotypic dimorphism. One gene with a large effect, grain, caused D. prolongata-like leg size phenotypes in D. melanogaster legs when knocked down. We further found only modest changes to magnitude and direction of expression differences in signalling pathways previously implicated in sexually dimorphic evolution. This suggests that these pathways regulating trait expression and dimorphism but may not be primary drivers of their phenotypic evolution.
