Roy Parker scite author profile

SUMMARY Stress granules are mRNA-protein granules that form when translation initiation is limited and are related to pathological granules in various neurodegenerative diseases. Super-resolution microscopy reveals stable substructures referred to as cores within stress granules that can be purified. Proteomic analysis of stress granule cores reveals a dense network of protein-protein interactions, links between stress granules and human diseases, and identifies ATP-dependent helicases and protein remodelers as conserved stress granule components. ATP is required for stress granule assembly and dynamics. Moreover, multiple ATP-driven machines affect stress granules differently; with the CCT complex inhibiting stress granule assembly, while the MCM and RVB complexes promote stress granule persistence. Our observations suggest that stress granules contain a stable core structure surrounded by a dynamic shell with assembly, disassembly and transitions between the core and shell modulated by numerous protein and RNA remodeling complexes.

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Formation and Maturation of Phase-Separated Liquid Droplets by RNA-Binding Proteins

Yuan

et al. 2015

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Eukaryotic cells possess numerous dynamic membrane-less organelles, RNP granules, enriched in RNA and RNA binding proteins containing disordered regions. We demonstrate that the disordered regions of key RNP granule components, and the full-length granule protein hnRNPA1, can phase separate in vitro, producing dynamic liquid droplets. Phase separation is promoted by low salt concentrations or RNA. Over time, the droplets mature to more stable states, as assessed by slowed fluorescence recovery after photobleaching and resistance to salt. Maturation often coincides with formation of fibrous structures. Different disordered domains can co-assemble into phase-separated droplets. These biophysical properties demonstrate a plausible mechanism by which interactions between disordered regions, coupled with RNA binding, could contribute to RNP granule assembly in vivo through promoting phase separation. Progression from dynamic liquids to stable fibers may be regulated to produce cellular structures with diverse physiochemical properties and functions. Misregulation could contribute to diseases involving aberrant RNA granules.

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Roy Parker

Guidelines for the use and interpretation of assays for monitoring autophagy (3rd edition)

ATPase-Modulated Stress Granules Contain a Diverse Proteome and Substructure

Formation and Maturation of Phase-Separated Liquid Droplets by RNA-Binding Proteins

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