The super-enhancer repertoire in porcine liver.

The cis-regulatory elements including promoters, enhancers, and newly identified super-enhancers (SEs), which were reported to function both promoter and enhancer capabilities, play critical roles in selective gene expression during development and disease. To reveal and compare the characteristics of these cis-elements in liver, we first performed a genome-wide profile of H3K27ac, H3K4me1, and C-EBPß, then constructed their associated stitched-enhancers respectively. Porcine liver-specific SEs were generated by overlapping the three stitched-enhancers. The genomic and genic location, TF binding sites and SNP distribution patterns were compared among these cis-elements. We found that stitched-enhancers gather in regions with higher gene densities and locate closer to the transcription starting sites. Additionally, SEs showed higher density of TF binding sites and SNPs. To access the transcriptional consequences of liver SEs, we first analyzed the genes locationally associated with SEs. The KEGG results suggested that these genes are significantly involved in metabolisms, detoxification, and autophagy pathways. We also detected the liver gene expression profiles using RNA-seq and noticed that SE-associated genes are more likely to be up-regulated. Our results provided novel information on the identification, function, and transcriptional regulation of cis-elements in the liver.