Single-molecule nascent RNA sequencing reveals regulatory domain architecture at promoters and enhancers

Eukaryotic RNA Polymerase II has been found at both promoters and distal enhancers, suggesting additional functions beyond mRNA production. To understand this role, we sequenced nascent RNAs at single-molecule resolution to unravel the interplay between Pol2 initiation, capping, and pausing genome-wide. Our analyses reveal two pause classes that are associated with different RNA capping profiles. More proximal pausing is associated with less complete capping, less elongation, and a more enhancer-like complement of transcription factors than later pausing. Unexpectedly, Transcription Start Sites (TSSes) are predominantly found in constellations composed of multiple divergent pairs. TSS clusters are intimately associated with precise arrays of nucleosomes, and correspond with boundaries of transcription factor binding and chromatin modification at promoters and enhancers. TSS architecture is remarkably similar after the dramatic transcriptional changes caused by heat‬ stress. Together, our results suggest that promoter- and enhancer-associated Pol2 is a regulatory nexus for integrating information across TSS ensembles.