Abstract
Biomolecular condensates are cellular compartments that form by phase separation in the absence of limiting membranes. Studying the P granules of C. elegans, we find that condensate dynamics are regulated by protein clusters that adsorb to the condensate interface. Using in vitro reconstitution, live observations and theory, we demonstrate that localized assembly of P granules is controlled by MEG-3, an intrinsically disordered protein that forms low dynamic assemblies on P granules. Following classic Pickering emulsion theory, MEG-3 clusters lower surface tension and slow down coarsening. During zygote polarization, MEG-3 recruits DYRK/MBK-2 kinase to accelerate localized growth of the P granule emulsion. By tuning condensate-cytoplasm exchange, interfacial clusters regulate the structural integrity of biomolecular condensates, reminiscent of the role of lipid bilayers in membrane-bound organelles.
One Sentence Summary Biomolecular condensates are stabilized by interfacial nanoscale protein clusters.
Competing Interest Statement
Geraldine Seydoux serves on the Scientific Advisory Board of Dewpoint Therapeutics