| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/J.MOLCEL.2012.05.019 |
| P698 | PubMed publication ID | 22727621 |
| P2093 | author name string | Tatsuya Maeda | |
| Terunao Takahara | |||
| P433 | issue | 2 | |
| P304 | page(s) | 242-252 | |
| P577 | publication date | 2012-06-21 | |
| P1433 | published in | Molecular Cell | Q3319468 |
| P1476 | title | Transient sequestration of TORC1 into stress granules during heat stress | |
| P478 | volume | 47 |
| Q49751490 | An In Vitro TORC1 Kinase Assay That Recapitulates the Gtr-Independent Glutamine-Responsive TORC1 Activation Mechanism on Yeast Vacuoles |
| Q28114326 | An evolutionarily conserved pathway controls proteasome homeostasis |
| Q27309027 | Aspergillus oryzae AoSO is a novel component of stress granules upon heat stress in filamentous fungi |
| Q41098241 | Ataxin-2 (Atxn2)-Knock-Out Mice Show Branched Chain Amino Acids and Fatty Acids Pathway Alterations |
| Q33836795 | Ataxin-2: From RNA Control to Human Health and Disease |
| Q36473888 | Attenuation of AMPK signaling by ROQUIN promotes T follicular helper cell formation |
| Q34531920 | BUHO: a MATLAB script for the study of stress granules and processing bodies by high-throughput image analysis |
| Q35867159 | Branched-Chain Aminotransferases Control TORC1 Signaling in Saccharomyces cerevisiae |
| Q90154448 | CLUH granules coordinate translation of mitochondrial proteins with mTORC1 signaling and mitophagy |
| Q92476077 | Calcium-responsive transactivator (CREST) toxicity is rescued by loss of PBP1/ATXN2 function in a novel yeast proteinopathy model and in transgenic flies |
| Q91910470 | Cellular response to moderate chromatin architectural defects promotes longevity |
| Q37430865 | Changes in cell morphology are coordinated with cell growth through the TORC1 pathway |
| Q39717140 | Defects in THO/TREX-2 function cause accumulation of novel cytoplasmic mRNP granules that can be cleared by autophagy |
| Q35151333 | Distinct inhibitory effects on mTOR signaling by ethanol and INK128 in diffuse large B-cell lymphoma. |
| Q27317301 | Diverse functions of mRNA metabolism factors in stress defense and aging of Caenorhabditis elegans |
| Q36727541 | Diversion of stress granules and P-bodies during viral infection |
| Q37696384 | Endolysosomal membrane trafficking complexes drive nutrient-dependent TORC1 signaling to control cell growth in Saccharomyces cerevisiae |
| Q24629019 | Eukaryotic stress granules are cleared by autophagy and Cdc48/VCP function |
| Q64957067 | Feedback regulation of TORC1 by its downstream effectors Npr1 and Par32. |
| Q39594763 | Formation of subnuclear foci is a unique spatial behavior of mating MAPKs during hyperosmotic stress |
| Q38300785 | Genetic ablation of ataxin-2 increases several global translation factors in their transcript abundance but decreases translation rate |
| Q36574580 | Genome-Wide Analysis of the TORC1 and Osmotic Stress Signaling Network in Saccharomyces cerevisiae |
| Q41136935 | H3K36 Methylation Regulates Nutrient Stress Response in Saccharomyces cerevisiae by Enforcing Transcriptional Fidelity |
| Q33905696 | HIV-1 enhances mTORC1 activity and repositions lysosomes to the periphery by co-opting Rag GTPases |
| Q27932557 | Heat shock-induced accumulation of translation elongation and termination factors precedes assembly of stress granules in S. cerevisiae |
| Q58728767 | Heat-induced longevity in budding yeast requires respiratory metabolism and glutathione recycling |
| Q89968620 | Infrared-A Irradiation-induced Inhibition of Human Keratinocyte Proliferation and Potential Mechanisms |
| Q24318126 | Inhibition of mTORC1 by astrin and stress granules prevents apoptosis in cancer cells |
| Q33929248 | Insights into the evolution and domain structure of Ataxin-2 proteins across eukaryotes |
| Q42012875 | Mammalian ataxin-2 modulates translation control at the pre-initiation complex via PI3K/mTOR and is induced by starvation |
| Q64969037 | Mechanisms of protein toxicity in neurodegenerative diseases. |
| Q39220061 | Membrane-bound organelles versus membrane-less compartments and their control of anabolic pathways in Drosophila |
| Q26776008 | Modifying Yeast Tolerance to Inhibitory Conditions of Ethanol Production Processes |
| Q27932903 | Molecular architecture and function of the SEA complex, a modulator of the TORC1 pathway. |
| Q38866763 | Molecular mechanisms of mTOR regulation by stress |
| Q37072570 | NEDDylation promotes stress granule assembly |
| Q36406372 | NLK phosphorylates Raptor to mediate stress-induced mTORC1 inhibition |
| Q92257313 | Nucleolar and Ribosomal DNA Structure under Stress: Yeast Lessons for Aging and Cancer |
| Q57809187 | Nutrient Signaling via the TORC1-Greatwall-PP2AB55δ Pathway Is Responsible for the High Initial Rates of Alcoholic Fermentation in Sake Yeast Strains of Saccharomyces cerevisiae. |
| Q89143883 | P-Body Localization of the Hrr25/Casein Kinase 1 Protein Kinase Is Required for the Completion of Meiosis |
| Q35027599 | PAS kinase is activated by direct SNF1-dependent phosphorylation and mediates inhibition of TORC1 through the phosphorylation and activation of Pbp1 |
| Q42144710 | Pbp1 is involved in Ccr4- and Khd1-mediated regulation of cell growth through association with ribosomal proteins Rpl12a and Rpl12b |
| Q47674692 | Pib2 and the EGO complex are both required for activation of TORC1. |
| Q47880472 | Polyglutamine spinocerebellar ataxias - from genes to potential treatments |
| Q38862341 | Principles and Properties of Stress Granules |
| Q36480370 | Processing body and stress granule assembly occur by independent and differentially regulated pathways in Saccharomyces cerevisiae |
| Q34520461 | Protein aggregation as a mechanism of adaptive cellular responses. |
| Q60920413 | Regulation of Cellular Metabolism through Phase Separation of Enzymes |
| Q42380686 | Regulation of Human Endonuclease V Activity and Relocalization to Cytoplasmic Stress Granules |
| Q39181426 | Small GTPases in C. elegans metabolism |
| Q61811431 | Small molecule ISRIB suppresses the integrated stress response within a defined window of activation |
| Q36391336 | Snf1/AMPK promotes the formation of Kog1/Raptor-bodies to increase the activation threshold of TORC1 in budding yeast |
| Q35398740 | Stress granule-defective mutants deregulate stress responsive transcripts. |
| Q38136844 | Stress granules and cell signaling: more than just a passing phase? |
| Q38930733 | Stress granules are dispensable for mRNA stabilization during cellular stress |
| Q42345154 | Stress granules: the last refuge of TORC1? |
| Q35878104 | TORC2 mediates the heat stress response in Drosophila by promoting the formation of stress granules |
| Q38846161 | Target of rapamycin signaling mediates vacuolar fragmentation |
| Q37076793 | The Activity-Dependent Regulation of Protein Kinase Stability by the Localization to P-Bodies |
| Q92373686 | The DEAD-box RNA helicase Ded1 has a role in the translational response to TORC1 inhibition |
| Q99569063 | The Isolation of Stress Granules From Plant Material |
| Q90611810 | The Lsm1-7/Pat1 complex binds to stress-activated mRNAs and modulates the response to hyperosmotic shock |
| Q90322407 | The involvement of stress granules in aging and aging-associated diseases |
| Q51764427 | The mTOR-S6 kinase pathway promotes stress granule assembly. |
| Q47373145 | The ribosomal DNA metaphase loop of Saccharomyces cerevisiae gets condensed upon heat stress in a Cdc14-independent TORC1-dependent manner |
| Q42680589 | The role of PKA in the translational response to heat stress in Saccharomyces cerevisiae |
| Q47693846 | The roles of intrinsic disorder-based liquid-liquid phase transitions in the "Dr. Jekyll-Mr. Hyde" behavior of proteins involved in amyotrophic lateral sclerosis and frontotemporal lobar degeneration |
| Q35330135 | The transcriptional stress response of Candida albicans to weak organic acids |
| Q36399070 | The yeast protein kinase Sch9 adjusts V-ATPase assembly/disassembly to control pH homeostasis and longevity in response to glucose availability |
| Q37636596 | Torin1-mediated TOR kinase inhibition reduces Wee1 levels and advances mitotic commitment in fission yeast and HeLa cells |
| Q36284492 | Translation suppression promotes stress granule formation and cell survival in response to cold shock |
| Q90305486 | Translational regulation in response to stress in Saccharomyces cerevisiae |
| Q47296399 | Vacuole-mediated selective regulation of TORC1-Sch9 signaling following oxidative stress |
| Q36648724 | Vesicular Trafficking Systems Impact TORC1-Controlled Transcriptional Programs in Saccharomyces cerevisiae |
| Q28305068 | Where is mTOR and what is it doing there? |
| Q26700102 | Who Regulates Whom? An Overview of RNA Granules and Viral Infections |
| Q64945059 | YB-1 recruitment to stress granules in zebrafish cells reveals a differential adaptive response to stress. |
| Q93080210 | Yeast Ataxin-2 Forms an Intracellular Condensate Required for the Inhibition of TORC1 Signaling during Respiratory Growth |
| Q27937729 | Yeast DJ-1 superfamily members are required for diauxic-shift reprogramming and cell survival in stationary phase |
| Q58602826 | Yeast thioredoxin reductase Trr1p controls TORC1-regulated processes |
| Q41836398 | Zinc starvation induces autophagy in yeast. |
| Q36189835 | mRNP granules. Assembly, function, and connections with disease |
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