Abstract
Enhancers are cis-regulatory elements that control the establishment of cell identities during development. In mammals, enhancer activation is tightly coupled with local DNA demethylation. Yet, whether this epigenetic remodelling is necessary for enhancer activation is unknown. Here, we developed a single molecule multi-omics approach to measure chromatin accessibility and transcription factor binding as a function of the presence of methylation on the same DNA molecules. We leveraged natural epigenetic heterogeneity at active enhancers to test the impact of DNA methylation on their activity in multiple cell lineages. While reduction of DNA methylation appears dispensable for the activity of most enhancers, we identify a class of cell-type-specific enhancers where presence of DNA methylation antagonises the binding of transcription factors. Genetic perturbations reveal that chromatin accessibility and transcription factor binding are a direct function of active demethylation at these loci. Thus, in addition to safeguarding the genome from spurious activation, DNA methylation directly controls transcription factor occupancy at cell-type-specific active enhancers.
Competing Interest Statement
The authors have declared no competing interest.