Promoters and enhancers are key cis-regulatory elements, but how they orchestrate to generate cell-type-specific transcriptomes remains elusive. We developed a simple and robust approach to globally determine 5-ends of nascent RNAs (NET-CAGE) in diverse cells and tissues, thereby sensitively detecting unstable transcripts including enhancer-derived RNAs. We studied RNA synthesis and degradation at the transcription start site level, uncovering the impact of differential promoter usage on transcript stability. We quantified transcription from cis-regulatory elements without influence of RNA turnover, and identified enhancer-promoter pairs which were simultaneously activated upon cellular stimulation.  By integrating NET-CAGE data with chromatin interaction maps, we revealed that cis-regulatory elements are topologically connected according to their cell-type specificity. We discovered new enhancers with high sensitivity, and delineated primary locations of transcription within super-enhancers. Our collection of NET-CAGE data from human and mouse significantly expanded the FANTOM5 catalogue of transcribed enhancers, with broad applicability to biomedical research. SOURCE: Shruti Bhagat (shruti.bhagat@riken.jp) - Preventive Medicine and Applied Genomics Unit RIKEN, Yokohama

Pluto Bioinformatics

GSE118075 (mouse): Dynamics and Topology of Human Transcribed Cis-regulatory Elements