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Stress granule
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AMP-Activated Protein Kinase Alpha Regulates Stress Granule Biogenesis
Stress Granule-Inducing Eukaryotic Translation Initiation Factor 4A Inhibitors Block Influenza a 2 Virus Replication 3
Coupling of Translation Quality Control and Mrna Targeting to Stress
Drug-Induced Stress Granule Formation Protects Sensory Hair
Possible Roles in the Control of Translation and Mrna Degradation
Stress Granules: Signal for Formation Under Arsenic and Oxidative Stress
Dynamics and Functions of Stress Granules and Processing Bodies in Plants
Profilin 1 Associates with Stress Granules and ALS-Linked Mutations Alter Stress Granule Dynamics
The Co-Chaperone Hspbp1 Is a Novel Component of Stress Granules That Regulates Their Formation
Protein Phase Separation During Stress Adaptation and Cellular Memory
Differential Regulation of Mrna Fate by the Human Ccr4-Not Complex Is Driven by CDS Composition and Mrna Localisation
Proteomic Analysis Reveals That MAEL, a Component of Nuage, Interacts with Stress Granule Proteins in Cancer Cells
RNA-Binding Proteins with Prion-Like Domains in Health and Disease
Cellular Stress Leads to the Formation of Membraneless Stress Assemblies in Eukaryotic Cells Van Leeuwen, Wessel; Rabouille, Catherine
Stress Granules Cytoplasmic Aggregation of These Eif2α Phosphorylation
Crosstalk Between Stress Granules, Exosomes, Tumour Antigens, and Immune Cells: Significance for Cancer Immunity
Stress Granule-Inducing Eukaryotic Translation Initiation Factor 4A Inhibitors Block Influenza a Virus Replication
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Ubiquitination Is Essential for Recovery of Cellular Activities Following Heat Shock Authors: Brian A
Optogranules Reveal the Evolution of Stress Granules to ALS-FTD Pathology
AMP Kinase Activation Alters Oxidant-Induced Stress Granule Assembly by Modulating Cell Signaling and Microtubule Organization S
Stress-Induced Mrnp Granules: Form and Function of Processing Bodies and Stress Granules
RNA Self-Assembly Contributes to Stress Granule Formation and Defining the Stress Granule Transcriptome
Cytoplasmic TDP-43 De-Mixing Independent of Stress Granules Drives Inhibition of Nuclear Import, Loss of Nuclear TDP-43, and Cell Death
Analysis of Stress Granule Assembly in Schizosaccharomyces Pombe
AMP-Activated Protein Kinase Alpha Regulates Stress Granule Biogenesis
Stress Granule Assembly Can Facilitate but Is Not Required for TDP-43 Cytoplasmic Aggregation
The Role of Host Eif2α in Viral Infection
Comparative Profiling of Stress Granule Clearance Reveals Differential Contributions of the Ubiquitin System
Active Protein Neddylation Or Ubiquitylation Is Dispensable for Stress Granule Dynamics
Eif3a Destabilization and TDP-43 Alter Dynamics of Heat-Induced Stress Granules
Widespread Remodeling of Proteome Solubility in Response to Different Protein Homeostasis Stresses
1 Ubiquitination of G3BP1 Mediates Stress Granule
Noroviruses Subvert the Core Stress Granule Component G3BP1 to Promote Viral Vpg-Dependent Translation
Spatio-Temporal Proteomic Analysis of Stress Granule Disassembly Using APEX Reveals Regulation by Sumoylation and Links to ALS Pathogenesis
Insulin Mrna Is Stored in RNA Granules in Resting Beta Cells
Sumoylation of Eif4a2 Affects Stress Granule Formation
Proximity RNA Labeling by APEX-Seq Reveals the Organization of Translation Initiation Complexes and Repressive RNA Granules
Stress Granule Formation Is Induced by a Threshold Temperature Rather
Stimulation of Gαq Promotes Stress Granule Formation
Stress-Specific Differences in Assembly and Composition of Stress Granules and Related Foci Anaïs Aulas1,2, Marta M
Imaging of Single Mrna Translation Repression Reveals Diverse
Sumoylation of Eif4a2 Affects Stress Granule Formation Jirapas Jongjitwimol1,*,‡, Robert A
Phosphorylation‐Dependent Control of an RNA Granule‐Localized Protein