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Dynamic arrest and aging of biomolecular condensates are modulated by low-complexity domains, RNA and biochemical activity

Miriam Linsenmeier, Maria Hondele, Fulvio Grigolato, Eleonora Secchi, Karsten Weis, Paolo Arosio

2022Nature Communications108 citationsDOIOpen Access PDF

Abstract

Biomolecular condensates require suitable control of material properties for their function. Here we apply Differential Dynamic Microscopy (DDM) to probe the material properties of an in vitro model of processing bodies consisting of out-of-equilibrium condensates formed by the DEAD-box ATPase Dhh1 in the presence of ATP and RNA. By applying this single-droplet technique we show that condensates within the same population exhibit a distribution of material properties, which are regulated on several levels. Removal of the low-complexity domains (LCDs) of the protein decreases the fluidity of the condensates. Structured RNA leads to a larger fraction of dynamically arrested condensates with respect to unstructured polyuridylic acid (polyU). Promotion of the enzymatic ATPase activity of Dhh1 reduces aging of the condensates and the formation of arrested structures, indicating that biochemical activity and material turnover can maintain fluid-like properties over time.

Topics & Concepts

RNABiophysicsChemistryATPasePopulationEnzymeBiological systemBiochemistryBiologySociologyDemographyGeneRNA Research and SplicingRNA modifications and cancerRNA and protein synthesis mechanisms