DNA methylation regulates sex-biased gene expression in the house sparrow

Abstract

AbstractSexual dimorphism is often mediated by tissue-specific, differential gene expression, but the mechanisms that regulate these gene expression patterns are not well understood. Here, we investigate DNA methylation as a potential regulator of sex-biased gene expression in the house sparrow (Passer domesticus). First, we examine whether sex-bias in gene expression or DNA methylation is present in this species, and whether any sex differences are tissue-general or tissue-specific. Second, we assess the correlation between gene expression and DNA methylation at different genomic features in several tissues. Samples clustered by tissue type when looking at both gene expression and DNA methylation, and in gonads samples clustered according to sex. We demonstrate sex-bias in DNA methylation and gene expression on the Z-chromosome as well as on autosomes, but find that most of the sex-biased genes are tissue-specific and that the majority of sex-bias occurs in gonads, although some tissue-general sex differences were observed. This underscores the importance of choosing a tissue relevant to the studied phenotype in DNA methylation or gene expression studies. We find strong negative correlation between DNA methylation and gene expression at the transcription start site (TSS), and that the TSS of highly expressed genes is hypomethylated in comparison to the TSS of genes with low expression. Furthermore, we show that sex-biased DNA methylation can account for 14% of the sex differences in gene expression in gonads. Together these results indicate that DNA methylation differences between the sexes can provide a mechanistic explanation for sex-biased gene expression that likely contributes to trait sexual dimorphism in nature.