Abstract
BackgroundGenes with sex-biased expression often show rapid molecular evolution between species. Previous population genetic and comparative genomic studies of Drosophila melanogaster and D. simulans revealed that male-biased genes have especially high rates of adaptive evolution. To test if this is also the case for other lineages within the melanogaster group, we investigated gene expression in D. ananassae, a species that occurs in structured populations in tropical and subtropical regions. We used custom-made microarrays and published microarray data to characterize the sex-biased expression of 129 D. ananassae genes whose D. melanogaster orthologs had been classified previously as male-biased, female-biased, or unbiased in their expression and had been studied extensively at the population-genetic level. For 43 of these genes we surveyed DNA sequence polymorphism in a natural population of D. ananassae and determined divergence to the sister species D. atripex and D. phaeopleura.ResultsSex-biased expression is generally conserved between D. melanogaster and D. ananassae, with the majority of genes exhibiting the same bias in the two species. However, about one-third of the genes have either gained or lost sex-biased expression in one of the species and a small proportion of genes (~4%) have changed bias from one sex to the other. The male-biased genes of D. ananassae show evidence of positive selection acting at the protein level. However, the signal of adaptive protein evolution for male-biased genes is not as strong in D. ananassae as it is in D. melanogaster and is limited to genes with conserved male-biased expression in both species. Within D. ananassae, a significant signal of adaptive evolution is also detected for female-biased and unbiased genes.ConclusionsOur findings extend previous observations of widespread adaptive protein evolution to an independent Drosophila lineage, the D. ananassae subgroup. However, the rate of adaptive evolution is not greater for male-biased genes than for female-biased or unbiased genes, which suggests that there are differences in sex-biased gene evolution between the two lineages.
Highlights
Genes with sex-biased expression often show rapid molecular evolution between species
Sex-biased gene expression in D. ananassae To investigate sex-biased gene expression in D. ananassae, we designed a species-specific microarray of PCR-amplified exon sequences from 148 genes (Additional file 1) whose orthologs had been previously classified as malebiased, female-biased or unbiased in D. melanogaster
To examine the conservation of sex-biased gene expression between species, we compared the above D. ananassae classifications to those previously determined for D. melanogaster
Summary
Genes with sex-biased expression often show rapid molecular evolution between species. Previous population genetic and comparative genomic studies of Drosophila melanogaster and D. simulans revealed that male-biased genes have especially high rates of adaptive evolution To test if this is the case for other lineages within the melanogaster group, we investigated gene expression in D. ananassae, a species that occurs in structured populations in tropical and subtropical regions. This study measured the rate of evolution by the proportion of nonsynonymous substitutions (dN) between species and confirmed a higher rate of protein evolution in genes that had male-biased expression in both D. melanogaster and D. pseudoobscura, but found no evidence for an increased rate of evolution of genes that had male-biased expression only in D. pseudoobscura The latter genes were only about half as divergent as the former and showed evolutionary rates similar to those of female-biased and unbiased genes. To further investigate this possibility, we analyzed sex-biased gene expression and DNA sequence polymorphism in D. ananassae, a species within the melanogaster group that serves as an outgroup to all species within the melanogaster subgroup, but is more closely related to D. melanogaster than D. pseudoobscura [6,7]
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
