Abstract
Understanding the molecular basis of cell function and ultimate phenotypes is crucial for the development of biological markers. With this aim, several RNA-seq studies have been devoted to the characterization of the transcriptome of ejaculated spermatozoa in relation to sperm quality and fertility. Semen quality follows a seasonal pattern and decays in the summer months in several animal species. The aim of this study was to deeply profile the transcriptome of the boar sperm and to evaluate its seasonal changes. We sequenced the total and the short fractions of the sperm RNA from 10 Pietrain boars, 5 collected in summer and 5 five sampled in winter, and identified a complex and rich transcriptome with 4,436 coding genes of moderate to high abundance. Transcript fragmentation was high but less obvious in genes related to spermatogenesis, chromatin compaction and fertility. Short non-coding RNAs mostly included piwi-interacting RNAs, transfer RNAs and microRNAs. We also compared the transcriptome of the summer and the winter ejaculates and identified 34 coding genes and 7 microRNAs with a significantly distinct distribution. These genes were mostly related to oxidative stress, DNA damage and autophagy. This is the deepest characterization of the boar sperm transcriptome and the first study linking the transcriptome and the seasonal variability of semen quality in animals. The annotation described here can be used as a reference for the identification of markers of sperm quality in pigs.
Highlights
IntroductionSemen Quality Is Highly Relevant for the Sustainability of Modern Pig Breeding
Semen Quality Is Highly Relevant for the Sustainability of Modern Pig BreedingSwine, together with poultry, are the most important sources of meat for human consumption worldwide (OECD, 2018)
We have profiled the sperm transcriptome from 10 boars, including both coding and noncoding RNAs and we have evaluated the relationship between transcript abundance and the season of collection in the northern temperate climate zone
Summary
Semen Quality Is Highly Relevant for the Sustainability of Modern Pig Breeding. Together with poultry, are the most important sources of meat for human consumption (in kg) worldwide (OECD, 2018). The global demand for animal protein is growing quickly. Improving the efficiency of pork production is of paramount importance for the sustainability of the sector. Pig production relies on the genetic merit of boars kept in artificial insemination centers and the quality of their sperm to disseminate their genetic material. There is an increasing demand for molecular markers that afford early prediction of semen quality and fertility in young boars. The Sperm Cell Contains a Complex and Functionally Relevant Transcriptome
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