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Differentiating Drosophila female germ cells initiate Polycomb silencing by regulating PRC2-interacting proteins

Steven Z. DeLuca, Megha Ghildiyal, Liang-Yu Pang, Allan C. Spradling

2020eLife43 citationsDOIOpen Access PDF

Abstract

female germline stem cells (GSCs) provide a powerful system for studying Polycomb silencing. GSCs have a non-canonical distribution of PRC2 activity and lack silenced chromatin like embryonic progenitors. As GSC daughters differentiate into nurse cells and oocytes, nurse cells, like embryonic somatic cells, silence genes in traditional Polycomb domains and in generally inactive chromatin. Developmentally controlled expression of two Polycomb repressive complex 2 (PRC2)-interacting proteins, Pcl and Scm, initiate silencing during differentiation. In GSCs, abundant Pcl inhibits PRC2-dependent silencing globally, while in nurse cells Pcl declines and newly induced Scm concentrates PRC2 activity on traditional Polycomb domains. Our results suggest that PRC2-dependent silencing is developmentally regulated by accessory proteins that either increase the concentration of PRC2 at target sites or inhibit the rate that PRC2 samples chromatin.

Topics & Concepts

PRC2ChromatinGene silencingPolycomb-group proteinsCell biologyEmbryonic stem cellBiologyNurse cellHistone H3GeneticsGene expressionGeneRepressorEmbryogenesisEmbryoOogenesisEpigenetics and DNA MethylationGenomics and Chromatin DynamicsCancer-related gene regulation
Differentiating Drosophila female germ cells initiate Polycomb silencing by regulating PRC2-interacting proteins | Litcius