Abstract
Fat-tail content of sheep breeds is varied and the molecular mechanisms regulating fat-tail development have not been well characterized. Aiming at better identifying the important candidate genes and their functional pathways contributing to fat deposition in the tail, a comparative transcriptome analysis was performed between fat- (Lori-Bakhtiari) and thin-tailed (Zel) Iranian sheep breeds using RNA-seq. The experiment was conducted on six male lambs (three lambs per each breed) at seven months of age. Four different combinations of aligners and statistical methods including Hisat2 + edgeR, Hisat2 + DESeq2, STAR + edgeR and STAR + DESeq2 were used to identify the differentially expressed genes (DEGs). The DEGs were selected for functional enrichment analysis and protein-protein interaction (PPI) network construction. Module analysis was also conducted to mine the functional sub-networks from the PPI network. In total, 264 genes including 80 up- and 184 down-regulated genes were identified as DEGs. The RNA-Seq results were validated by Q-RT-PCR. Functional analysis of DEGs and the module analysis of PPI network demonstrated that in addition to pathways affecting lipid metabolism, a series of enriched functional terms related to “response to interleukin”, “MAPK signaling pathways”, “Wnt signaling pathway”, “ECM-receptor interaction”, “regulation of actin cytoskeleton”, and “response to cAMP” might contribute to the deposition of fat in tails of sheep. Overall results using RNA-Seq analysis characterized important candidate genes involved in the fatty acid metabolism and regulation of fat deposition, suggesting novel insights into molecular aspects of fat-tail metabolism in sheep. Selected DEGs should be further investigated as potential markers associated with the fat-tail development in sheep breeds.
Highlights
Sheep are one of the most important livestock animals and are known as the first domesticated grazing animal
Results suggested that in addition to pathways affecting lipid metabolism, a series of enriched functional terms related to “response to interleukin”, “MAPK signaling pathways”, “Wnt signaling pathway”, “extracellular matrix (ECM)-receptor interaction”, “regulation of actin cytoskeleton” and “response to cAMP” may contribute to the deposition of fat in the tail of Lori-Bakhtiari sheep, through interacting with pathways related to lipid metabolism
Results suggested that four modules, which were significantly enriched with gene ontology (GO) terms as well as Kyoto Encyclopedia of Genes and Genomes (KEGG) pathways related to lipid metabolism, were found in protein-protein interaction (PPI) networks
Summary
Sheep are one of the most important livestock animals and are known as the first domesticated grazing animal. The identification of the candidate genes and molecular pathways regulating fat deposition in the tail of sheep are economically important. Few studies have been conducted to identify important functional genes or selective genomic regions associated with tail fat formation by comparing differences between these two extremely different Iranian sheep breeds. To the best of our knowledge, there has been no genome-wide gene expression profiling study comparing the transcriptome between fat- and thin-tailed sheep breeds. In this study we compared Lori-Bakhtiari and Zel breeds at the transcriptome level using RNA-Seq technology to identify the determinant genes as well as the potential underlying molecular mechanisms governing the fat deposition in sheep tails
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