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RNA-Induced Conformational Switching and Clustering of G3BP Drive Stress Granule Assembly by Condensation.

Cell (2020-04-18)
Jordina Guillén-Boixet, Andrii Kopach, Alex S Holehouse, Sina Wittmann, Marcus Jahnel, Raimund Schlüßler, Kyoohyun Kim, Irmela R E A Trussina, Jie Wang, Daniel Mateju, Ina Poser, Shovamayee Maharana, Martine Ruer-Gruß, Doris Richter, Xiaojie Zhang, Young-Tae Chang, Jochen Guck, Alf Honigmann, Julia Mahamid, Anthony A Hyman, Rohit V Pappu, Simon Alberti, Titus M Franzmann
RESUMEN

Stressed cells shut down translation, release mRNA molecules from polysomes, and form stress granules (SGs) via a network of interactions that involve G3BP. Here we focus on the mechanistic underpinnings of SG assembly. We show that, under non-stress conditions, G3BP adopts a compact auto-inhibited state stabilized by electrostatic intramolecular interactions between the intrinsically disordered acidic tracts and the positively charged arginine-rich region. Upon release from polysomes, unfolded mRNAs outcompete G3BP auto-inhibitory interactions, engendering a conformational transition that facilitates clustering of G3BP through protein-RNA interactions. Subsequent physical crosslinking of G3BP clusters drives RNA molecules into networked RNA/protein condensates. We show that G3BP condensates impede RNA entanglement and recruit additional client proteins that promote SG maturation or induce a liquid-to-solid transition that may underlie disease. We propose that condensation coupled to conformational rearrangements and heterotypic multivalent interactions may be a general principle underlying RNP granule assembly.

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Anticuerpo anti-puromicina, clon 12D10, clone 12D10, from mouse
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L-(−)-Glucose, ≥99%
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poly(C)
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Polyguanylic acid potassium salt, lyophilized powder