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. 2025 Jun;34(6):e70136.
doi: 10.1002/pro.70136.

Protein-RNA condensation kinetics via filamentous nanoclusters

Affiliations

Protein-RNA condensation kinetics via filamentous nanoclusters

Ramon Peralta-Martinez et al. Protein Sci. 2025 Jun.

Abstract

Protein-RNA phase separation is at the center of membraneless biomolecular condensates governing cell physiology and pathology. Using an archetypical viral protein-RNA condensation model, we determined the sequence of events that starts with sub-second formation of a protomer with two RNAs per protein dimer. Association of additional RNA molecules to weaker secondary binding sites in this protomer kickstarts crystallization-like assembly of a molecular condensate. Primary nucleation is faster than the sum of secondary nucleation and growth, which is a multistep process. Protein-RNA nuclei grow over hundreds of seconds into filaments and subsequently into nanoclusters with approximately 600 nm diameter. Cryoelectron microscopy reveals an internal structure formed by incoming layers of protein-RNA filaments made of ribonucleoprotein oligomers, reminiscent of genome packing of a nucleocapsid. These nanoclusters progress to liquid condensate droplets that undergo further partial coalescence to yield typical hydrogel-like protein-RNA coacervates that may represent the scaffold of large viral factory condensates in infected cells. Our integrated experimental kinetic investigation exposes rate-limiting steps and structures along a key biological multistep pathway present across life kingdoms.

Keywords: RNA; condensates; kinetic mechanism; protein; virus.

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