Posttranslational modifications of histones (PTMs) are associated with specific chromatin and gene expression states. Although studies in Drosophila melanogaster have revealed phenotypic associations between chromatin-modifying enzymes and their histone substrates, comparable studies in mammalian models do not exist. Here, we use CRISPR base editing in mouse embryonic stem cells (mESCs) to address the regulatory role of lysine 27 of histone H3 (H3K27), a substrate for Polycomb repressive complex 2 (PRC2)-mediated methylation and CBP/EP300-mediated acetylation. By generating pan-H3K27R (pK27R) mutant mESCs, where all 28 alleles of H3.1, H3.2 and H3.3 have been mutated, we demonstrate similarity in transcription patterns of genes and differentiation to PRC2-null mutants. Moreover, H3K27 acetylation is not essential for gene derepression linked to loss of H3K27 methylation, or de novo activation of genes during cell-fate transition to epiblast-like cells (EpiLCs). In conclusion, our results show that H3K27 is an essential substrate for PRC2 in mESCs, whereas other PTMs in addition to H3K27 acetylation are likely involved in mediating CBP/EP300 function. Our work demonstrates the feasibility of large-scale multicopy gene editing to interrogate histone PTM function in mammalian cells.
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