Abstract
Sex-biased gene expression provides a means to achieve sexual dimorphism across a genome largely shared by both sexes. Trinidadian guppies are ideal to examine questions of sex-bias as they exhibit sexual dimorphism in ornamental coloration with male only expression. Here we use RNA-sequencing to quantify whole transcriptome gene expression differences, with a focus on differential expression of color genes between the sexes. We determine whether males express genes positively correlated with coloration at higher levels than females. We find that all the differentially expressed color genes were more highly expressed by males. Males also expressed all known black melanin synthesis genes at higher levels than females, regardless of whether the gene was significantly differentially expressed in the analysis. These differences correlated with the visual color differences between sexes at the stage sampled, as all males had ornamental black coloration apparent. We propose that sexual dimorphism in ornamental coloration is caused by male-biased expression of color genes.
Highlights
Phenotypic divergence in morphological traits can lead to the evolution of dimorphism within species
The guppy genome contains 26,071 loci and 18,568 met the cut-off imposed for differential expression estimates of at least one count per million in at least two samples
Ten color genes were differentially expressed (DE) between sexes, with all ten more highly expressed in males (Fig. 2, Table S2). Six of these 10 DE color genes are involved in the eventual formation of black melanin pigmentation (Table 2), which correlates with the visual presence of black coloration at the stage sampled
Summary
Phenotypic divergence in morphological traits can lead to the evolution of dimorphism within species. Substantial phenotypic differences can occur between males and females of a species (Lande, 1980). This sexual dimorphism can result from factors such as natural selection, sexual selection, or sexual conflict. Sexual dimorphism can be caused by natural selection if traits are favored that increase survival or reproduction in one sex (Ellegren & Parsch, 2007). Sexual dimorphism via sexual selection could occur for traits directly involved in mating success and can include intersexual and intrasexual selection (Ellegren & Parsch, 2007). Sexual conflict may happen when a trait is beneficial to one sex and detrimental to the other (Lande, 1980; Pennell & Morrow, 2013)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
