ABSTRACT
To regulate gene expression, enhancers must come into proximity with their target gene. At some loci the timing of enhancer-promoter proximity is uncoupled from gene activation, while at others it is tightly linked. Here, we assessed this more globally for 600 characterized enhancers or promoters (E/P) with tissue-specific activity in Drosophila embryos, by performing Capture-C and insulator ChIP in FACS-purified myogenic or neurogenic cells at different stages of embryogenesis. This high-resolution view enabled direct comparison between E/P interactions and activity across 5 developmental conditions. This revealed largely invariant E/P contacts between the blastoderm and cell fate specification stages, despite changes in activity. However, E/P interactions diverge during terminal tissue differentiation when many tissue-specific interactions are gained on top of a pre-existing topology. Changes in E/P proximity reflect changes in enhancer activity and gene activation, and are generally not accompanied by changes in insulator binding. Using transgenes and deletions, we show that many tissue-specific interactions represent functional E-P pairs. Our results reveal a shift in E-P landscapes as embryogenesis proceeds, from largely pre-formed topologies at early stages to more distal tissue-specific loops during differentiation, when E/P proximity appears coupled to activation.
Competing Interest Statement
The authors have declared no competing interest.