Abstract
Maintenance of cellular identity is a critical developmental process depending on the proper transmission of epigenetic information over cell generations. H3K27me3, controlled by the Polycomb group (PcG) proteins, represents such an epigenetic mark and is correlated to long-term and heritable gene silencing. However, H3K27me3 is also found at many inducible or cell cycle regulated genes, implicating an involvement in more dynamic processes. The chromodomain of Polycomb (Pc) binds the methyl moiety of H3K27 and anchors the PRC1 complex involved in nucleosome compaction. We adapted an Auxin-based degron system to deplete Pc during Drosophila development. The fast degradation of Pc results in the rapid removal of the H3K27me3 mark by the de-methylase Utx and in consequence in the rapid upregulation of Hox genes. This result shows that the chromodomain actively protects the methyl mark, inhibiting removal by Utx, hence, allowing for a much more dynamic regulation of PcG target genes.
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