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Inseparable RNA binding and chromatin modification activities of a nucleosome-interacting surface in EZH2

Emma H. Gail, Evan Healy, Sarena F. Flanigan, Natasha Jones, Xiao Han Ng, Michael Uckelmann, Vitalina Levina, Qi Zhang, Chen Davidovich

2024Nature Genetics21 citationsDOIOpen Access PDF

Abstract

Polycomb repressive complex 2 (PRC2) interacts with RNA in cells, but there is no consensus on how RNA regulates PRC2 canonical functions, including chromatin modification and the maintenance of transcription programs in lineage-committed cells. We assayed two separation-of-function mutants of the PRC2 catalytic subunit EZH2, defective in RNA binding but functional in methyltransferase activity. We find that part of the RNA-binding surface of EZH2 is required for chromatin modification, yet this activity is independent of RNA. Mechanistically, the RNA-binding surface within EZH2 is required for chromatin modification in vitro and in cells, through interactions with nucleosomal DNA. Contrarily, an RNA-binding-defective mutant exhibited normal chromatin modification activity in vitro and in lineage-committed cells, accompanied by normal gene repression activity. Collectively, we show that part of the RNA-binding surface of EZH2, rather than the RNA-binding activity per se, is required for the histone methylation in vitro and in cells, through interactions with the substrate nucleosome.

Topics & Concepts

ChromatinBiologyRNANucleosomePRC2Cell biologyEZH2Transcription (linguistics)Histone methylationMolecular biologyGeneticsDNADNA methylationGene expressionGenePhilosophyLinguisticsRNA modifications and cancerCancer-related molecular mechanisms researchRNA Research and Splicing
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