Abstract
Gene repression by the Polycomb pathway is essential for metazoan development. Polycomb domains, characterized by trimethylation of histone H3 lysine 27 (H3K27me3), carry the memory of repression and hence need to be maintained to counter the dilution of parental H3K27me3 with unmodified H3 during replication. Yet, how locus-specific H3K27me3 is maintained through replication is unclear. To understand H3K27me3 recovery post-replication, we first define nucleation sites within each Polycomb domain in mouse embryonic stem cells. To map dynamics of H3K27me3 domains across the cell cycle, we develop CUT&Flow (coupling cleavage under target and tagmentation with flow cytometry). We show that post-replication recovery of Polycomb domains occurs by nucleation and spreading, using the same nucleation sites used during de novo domain formation. By using Polycomb repressive complex 2 (PRC2) subunit-specific inhibitors, we find that PRC2 targets nucleation sites post-replication independent of pre-existing H3K27me3. Thus, competition between H3K27me3 deposition and nucleosome turnover drives both de novo domain formation and maintenance during every cell cycle.
Keywords:
CP: Molecular biology; PRC2; Polycomb; chromatin dynamics; epigenomics; nucleation.