Abstract
DNA replication is highly disruptive to chromatin, leading to eviction of nucleosomes, RNA polymerase, and regulatory factors. When and how transcription resumes on DNA following DNA replication is unknown. Here we develop a replication-coupled assay for transposase-accessible chromatin (repli-ATAC-seq) to investigate active chromatin restoration post-replication in mouse embryonic stem cells.We find that nascent chromatin is inaccessible andtranscriptionally silenced, with accessibility and RNA polymerase occupancy re-appearing within 30minutes. Chromatin accessibility restores differentially genome wide, with super enhancers regaining transcription factor occupancy faster than other genomic features. We also identify opportunistic and transiently accessible chromatin within gene bodies afterreplication. Systematic inhibition of transcription shows that transcription restart is required to re-establish active chromatin states genome wide and resolve opportunistic binding events resulting from DNA replication. Collectively, this establishes a central role for transcription in overcoming the genome-wide chromatin inaccessibility imposed by DNA replication every cell division.
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