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Head-to-tail polymerization by VEL proteins underpins cold-induced Polycomb silencing in flowering control

Marc Fiedler, Elsa Franco-Echevarría, Anna Schulten, Mathias Nielsen, Trevor J. Rutherford, Anna Yeates, Bilal Ahsan, Caroline Dean, Mariann Bienz

2022Cell Reports29 citationsDOIOpen Access PDF

Abstract

Transcriptional silencing through the Polycomb silencing machinery utilizes a "read-write" mechanism involving histone tail modifications. However, nucleation of silencing and long-term stable transmission of the silenced state also requires P-olycomb Repressive Complex 2 (PRC2) accessory proteins, whose molecular role is poorly understood. The Arabidopsis VEL proteins are accessory proteins that interact with PRC2 to nucleate and propagate silencing at the FLOWERING LOCUS C (FLC) locus, enabling early flowering in spring. Here, we report that VEL proteins contain a domain related to an atypical four-helix bundle that engages in spontaneous concentration-dependent head-to-tail polymerization to assemble dynamic biomolecular condensates. Mutations blocking polymerization of this VEL domain prevent Polycomb silencing at FLC. Plant VEL proteins thus facilitate assembly of dynamic multivalent Polycomb complexes required for inheritance of the silenced state.

Topics & Concepts

Gene silencingPRC2Flowering Locus CArabidopsisHistoneCell biologyPolycomb-group proteinsBiologyRepressorGeneticsHistone H3Transcription factorDNAGeneMutantPlant Molecular Biology ResearchPlant Stress Responses and TolerancePlant nutrient uptake and metabolism
Head-to-tail polymerization by VEL proteins underpins cold-induced Polycomb silencing in flowering control | Litcius