scholarly article | Q13442814 |
P50 | author | Woong-Yang Park | Q55163342 |
P2093 | author name string | Soon-Hee Kim | |
Jeong-Sun Seo | |||
Jong-Il Kim | |||
Jong-Eun Lee | |||
Eun-Young Kim | |||
Oliver Smithies | |||
Hyung-Suk Kim | |||
Eun-Hee Shim | |||
Dong-Il Jin | |||
Jae-Seon Lee | |||
Eui-Suk Bang | |||
Ja-Joon Jang | |||
Jun-Seok Heo | |||
P2860 | cites work | Targeted gene disruption of Hsp70-2 results in failed meiosis, germ cell apoptosis, and male infertility | Q24308728 |
Transcription of the sodium/myo-inositol cotransporter gene is regulated by multiple tonicity-responsive enhancers spread over 50 kilobase pairs in the 5'-flanking region | Q24647556 | ||
Heat-shock protein 70 antagonizes apoptosis-inducing factor | Q28215084 | ||
Structure and expression of the three MHC-linked HSP70 genes | Q28265877 | ||
The heat-shock proteins | Q29617227 | ||
Insights into regulation and function of the major stress-induced hsp70 molecular chaperone in vivo: analysis of mice with targeted gene disruption of the hsp70.1 or hsp70.3 gene | Q30764395 | ||
Heat-shock protein 70 inhibits apoptosis by preventing recruitment of procaspase-9 to the Apaf-1 apoptosome | Q33912989 | ||
Correlation between synthesis of heat shock proteins and development of thermotolerance in Chinese hamster fibroblasts | Q36296280 | ||
Differential induction of Hsp70-encoding genes in human hematopoietic cells | Q40796756 | ||
Pretreatment with hypertonic NaCl protects MDCK cells against high urea concentrations | Q41063555 | ||
Immediate early gene and HSP70 expression in hyperosmotic stress in MDCK cells | Q41663571 | ||
Characterization and sequence of a mouse hsp70 gene and its expression in mouse cell lines | Q41740327 | ||
Differential expression of heat shock protein (HSP70) mRNAs in rat cells. | Q42638270 | ||
Heat shock protein 72 modulates pathways of stress-induced apoptosis. | Q47921342 | ||
Induction of molecular chaperones by hyperosmotic stress in mouse inner medullary collecting duct cells | Q48047689 | ||
Comparative analysis of the three major histocompatibility complex-linked heat shock protein 70 (Hsp70) genes of the rat. | Q48086628 | ||
Expression of heat-shock and glucose-regulated genes: differential effects of glucose starvation and hypertonicity | Q68407393 | ||
T cell lymphoma in transgenic mice expressing the human Hsp70 gene | Q70900735 | ||
A combination of NaCl and urea enhances survival of IMCD cells to hyperosmolality | Q77642349 | ||
P433 | issue | 9 | |
P304 | page(s) | 857-861 | |
P577 | publication date | 2002-08-16 | |
P1433 | published in | EMBO Reports | Q5323356 |
P1476 | title | Targeted disruption of hsp70.1 sensitizes to osmotic stress | |
P478 | volume | 3 |
Q34145371 | Bacterial superantigen-treated intestinal epithelial cells upregulate heat shock proteins 25 and 72 and are resistant to oxidant cytotoxicity |
Q24635123 | Coordinated post-transcriptional regulation of Hsp70.3 gene expression by microRNA and alternative polyadenylation |
Q36160674 | DNA damage and osmotic regulation in the kidney |
Q46226839 | Differential expression of HSP70 mRNA in the mouse brain after treatment with geldanamycin |
Q40457016 | Differential expression of heat shock protein 27 and 70 in renal papillary collecting duct and interstitial cells - implications for urea resistance. |
Q36252549 | Engagement of Components of DNA-Break Repair Complex and NFκB in Hsp70A1A Transcription Upregulation by Heat Shock |
Q45182331 | HSP70 deficiency results in activation of c-Jun N-terminal Kinase, extracellular signal-regulated kinase, and caspase-3 in hyperosmolarity-induced apoptosis |
Q37710618 | HSP70-1 is required for interleukin-5-induced angiogenic responses through eNOS pathway |
Q40520278 | Heat shock protein 70 inhibits shrinkage-induced programmed cell death via mechanisms independent of effects on cell volume-regulatory membrane transport proteins. |
Q55287568 | Hsp70 Suppresses Mitochondrial Reactive Oxygen Species and Preserves Pulmonary Microvascular Barrier Integrity Following Exposure to Bacterial Toxins. |
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Q37528856 | Living with urea stress. |
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Q42655653 | Molecular cloning and expression analysis of a cytosolic Hsp70 gene from Antarctic ice algae Chlamydomonas sp. ICE-L. |
Q37200825 | Multiple hsp70 isoforms in the eukaryotic cytosol: mere redundancy or functional specificity? |
Q36603283 | NF-kappaB driven cardioprotective gene programs; Hsp70.3 and cardioprotection after late ischemic preconditioning. |
Q37624763 | NFAT5 genes are part of the osmotic regulatory system in Atlantic salmon (Salmo salar). |
Q36847032 | NFAT5 in cellular adaptation to hypertonic stress - regulations and functional significance |
Q58565573 | NFAT5 up-regulates expression of the kidney-specific ubiquitin ligase gene under hypertonic conditions in inner-medullary collecting duct cells |
Q39647598 | O-Linked β-N-acetylglucosamine (O-GlcNAc) Regulates Stress-induced Heat Shock Protein Expression in a GSK-3β-dependent Manner |
Q36974958 | Osmosensing and signaling in the regulation of mammalian cell function |
Q37004579 | Past, present, and emerging roles of mitochondrial heat shock protein TRAP1 in the metabolism and regulation of cancer stem cells. |
Q50726607 | Regulation of nucleocytoplasmic trafficking of transcription factor OREBP/TonEBP/NFAT5. |
Q40555549 | Response of human cells to desiccation: comparison with hyperosmotic stress response |
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Q46800213 | Stress response in mesoangioblast stem cells. |
Q34528825 | Survival in hostile environments: strategies of renal medullary cells |
Q53090521 | TAK1 promotes cell survival by TNFAIP3 and IL-8 dependent and NF-κB independent pathway in HeLa cells exposed to heat stress. |
Q36895403 | The HSP70 family and cancer |
Q47287583 | The expression of the HSP70 gene in Moneuplotes crassus is controlled by a two-step process at the transcript level |
Q36838138 | The heat shock protein 70 family: Highly homologous proteins with overlapping and distinct functions. |
Q33432765 | The transcription factor NFAT5 is required for cyclin expression and cell cycle progression in cells exposed to hypertonic stress |
Q28302484 | TonEBP stimulates multiple cellular pathways for adaptation to hypertonic stress: organic osmolyte-dependent and -independent pathways |
Q36044804 | Transcriptional regulation of gene expression during osmotic stress responses by the mammalian target of rapamycin |
Q45116957 | Transcriptional targets of DAF-16 insulin signaling pathway protect C. elegans from extreme hypertonic stress |
Q28240294 | Transgenic mice expressing dominant-negative osmotic-response element-binding protein (OREBP) in lens exhibit fiber cell elongation defect associated with increased DNA breaks |
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