Abstract
The presence of small RNAs in sperm is a relatively recent discovery and little is currently known about their importance and functions. Environmental changes including social conditions and dietary manipulations are known to affect the composition and expression of some small RNAs in sperm and may elicit a physiological stress response resulting in an associated change in gamete miRNA profiles. Here, we tested how microRNA profiles in sperm are affected by variation in both sexual selection and dietary regimes in Drosophila melanogaster selection lines. The selection lines were exposed to standard versus low yeast diet treatments and three different population sex ratios (male-biased, female-biased, or equal sex) in a full-factorial design. After 38 generations of selection, all males were maintained on their selected diet and in a common garden male-only environment prior to sperm sampling. We performed transcriptome analyses on miRNAs in purified sperm samples. We found 11 differentially expressed miRNAs with the majority showing differences between male- and female-biased lines. Dietary treatment only had a significant effect on miRNA expression levels in interaction with sex ratio. Our findings suggest that long-term adaptation may affect miRNA profiles in sperm and that these may show varied interactions with short-term environmental changes.
Highlights
It has been suggested that sperm miRNA profiles may carry signatures of the selection pressures acting on sperm
We investigated the selection pressures that are acting on sperm miRNA content by comparing the sperm miRNA profiles of Drosophila melanogaster selection lines subjected to three different sexual selection treatments and two different diet treatments (100% [100 g/L] yeast and 20% [20 g/L] yeast)
The selection lines were derived from an experimental evolution study combining diet and sexual selection regimes in a 2 × 3 full-factorial design resulting in six different combinations
Summary
What is clear is that variation in the miRNA content in sperm may have effects on the generation(s) (Miller et al 2005; Dadoune 2009; Bourc’his and Voinnet 2010; Hosken and Hodgson 2014; Yan 2014; Holman and Price 2014). We investigated the selection pressures that are acting on sperm miRNA content by comparing the sperm miRNA profiles of Drosophila melanogaster selection lines subjected to three different sexual selection treatments (male-biased sex ratio, equal sex ratio, and female-biased sex ratio) and two different diet treatments (100% [100 g/L] yeast and 20% [20 g/L] yeast). After 38 generations of selection, we separated males from females immediately after hatching and allowed them to mate for 24 h with control females before separating them for 5 days to standardize their sperm production across regimes. We collected two pooled sperm samples from 20 males each per selection line and sequenced the miRNA profiles of all samples
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