Invited review: Effects of heat and cold stress on mammalian gene expression.
about
Transcriptome response to temperature stress in the wolf spiderPardosa pseudoannulata(Araneae: Lycosidae)Human whole body cold adaptationModeling the intra- and extracellular cytokine signaling pathway under heat stroke in the liverInfused polymers for cell sheet release.A comparison of the transcriptome of Drosophila melanogaster in response to entomopathogenic fungus, ionizing radiation, starvation and cold shock.Role of the 3'-untranslated region of human endothelin-1 in vascular endothelial cells. Contribution to transcript lability and the cellular heat shock responseMammalian hibernation: cellular and molecular responses to depressed metabolism and low temperatureUse of a small molecule cell cycle inhibitor to control cell growth and improve specific productivity and product quality of recombinant proteins in CHO cell culturesA microarray analysis of the effects of moderate hypothermia and rewarming on gene expression by human hepatocytes (HepG2).Proliferation control strategies to improve productivity and survival during CHO based production culture : A summary of recent methods employed and the effects of proliferation control in product secreting CHO cell linesStandardized transportation of human islets: an islet cell resource center study of more than 2,000 shipments.Coral thermal tolerance: tuning gene expression to resist thermal stressCXC chemokines: a new family of heat-shock proteins?Heterologous microarray experiments used to identify the early gene response to heat stress in a coral reef fish.Fluorescence imaging of heat-stress induced mitochondrial long-term depolarization in breast cancer cells.Nuclear translocation of 2-amino-3-ketobutyrate coenzyme A ligase by cold and osmotic stressRole of HSP70 in cellular thermotolerance.Chaperonin contributes to cold hardiness of the onion maggot Delia antiqua through repression of depolymerization of actin at low temperatures.Characterization of goldfish heat shock protein-30 induced upon severe heat shock in cultured cells.Matrix Mechanosensing: From Scaling Concepts in 'Omics Data to Mechanisms in the Nucleus, Regeneration, and Cancer.Plasticity in gene transcription explains the differential performance of two invasive fish speciesMicroarray analysis of cellular thermotolerance.Recent Advances of Activatable Molecular Probes Based on Semiconducting Polymer Nanoparticles in Sensing and Imaging.Core temperature correlates with expression of selected stress and immunomodulatory genes in febrile patients with sepsis and noninfectious SIRS.Temperature differentially affects adenosine triphosphatase activity in Hsc70 orthologs from Antarctic and New Zealand notothenioid fishesGrowth arrest specific gene 2 in tilapia (Oreochromis niloticus): molecular characterization and functional analysis under low-temperature stressImage-guided genomic analysis of tissue response to laser-induced thermal stress.Expression of mRNA for the t-complex polypeptide-1, a subunit of chaperonin CCT, is upregulated in association with increased cold hardiness in Delia antiqua.DNAJB6 induces degradation of beta-catenin and causes partial reversal of mesenchymal phenotype.Proteomic analysis of endothelial cold-adaptationIs oxygen supply a limiting factor for survival during rewarming from profound hypothermia?Methionine protects against hyperthermia-induced cell injury in cultured bovine mammary epithelial cellsEffects of mild cold shock (25°C) followed by warming up at 37°C on the cellular stress response.Patterns of gene expression associated with recovery and injury in heat-stressed rats.Heat shock proteins in porcine ovary: synthesis, accumulation and regulation by stress and hormonesCellular thermotolerance is associated with heat shock protein 70.1 genetic polymorphisms in Holstein lactating cowsThe global effect of heat on gene expression in cultured bovine mammary epithelial cells.Differential effect of culture temperature and specific growth rate on CHO cell behavior in chemostat culture.Enhanced survival of skeletal muscle myoblasts in response to overexpression of cold shock protein RBM3Stress-dependent expression of a polymorphic, charged antigen in the protozoan parasite Entamoeba histolytica
P2860
Q26315510-21E474FE-8A4F-45F6-838D-FA6BF88BA083Q26745768-A2F60DFE-935E-4464-A2E8-1FC00EF291B1Q27307863-48550233-49C5-41A3-9063-9979AF70A9F4Q27314761-53CD0EAE-DBD7-42BE-882C-14284DD5A935Q27321184-B9135B14-081C-4D3C-AE4D-5B4C6FFF3F72Q28189925-F0FEB474-641B-4C23-8494-426B8DD66486Q28204734-9911F19A-8160-4D20-B54A-16161305C6EEQ28652788-B26F6128-0979-46A3-A703-D34C8733FDBCQ30433025-DCBF48D5-A348-4FB5-B427-671BFA405C87Q30492978-0DCD5BBB-D4A7-47B0-BB6B-AE551B0D3B99Q30543063-528339DF-66F5-4D79-A073-4E36D3069F5BQ30580918-F233A2C8-887D-4C2F-8984-FA2B348E5D06Q31002625-C5E1675B-4730-4BA4-A6D3-ABC12B9BA625Q31107883-D30691C3-A16E-4043-AA65-8B8AE09C5BC2Q33259041-9B3D2ABF-BC2B-4D3D-9443-E2D5768B0F08Q33293706-3EC2E56C-D9C9-4A53-9EF4-FE52F086F026Q33391118-8437810C-20B7-43AC-B68D-8EBA56C1E9C6Q33518575-19090504-F5CB-46AC-93AD-131D127A3A77Q33716798-CFE4D18B-9120-48B7-B449-6402D12729BEQ33726992-88981632-7943-404E-89A6-896E52339AF4Q33792293-433A6B4A-9DC0-4181-952F-4F16FC2B6928Q33796972-A7DA62AD-C55D-4040-A359-FE41B00EA9FDQ33806298-0E6C0B5B-C891-46F9-8D10-62EA17C12F34Q33838865-7803C4B8-DB9D-4633-B528-41580E301223Q33899676-7D43A609-1AB7-4B1A-8013-3D465C7DEB2EQ33912995-AEFD36D5-EB32-4E24-A0B9-D8D7C8F4958BQ33922198-A6CE850C-6A33-469E-B8C4-4605FE15FC3CQ34020322-0D4E3344-AA9F-493B-A6E9-95C35D651A6FQ34042660-7A9A71AA-BFF5-413E-8E06-2FEBD97FD688Q34109144-5B9EA323-9DB5-4413-AEE1-6FFE931E63BCQ34491937-7FD6FB83-D1DC-4162-8436-F5C4A3B8D04AQ34629001-ABA3B00B-3CB6-4665-9EBA-811EB22407A9Q34920889-7D3BAB72-E136-488D-BBAC-8EC8D07963D1Q34996326-954E95AE-E40C-4EE5-A23E-EBAB4466E846Q35056227-D49F4C73-F8E7-4117-9A3D-6158656ADEBBQ35056231-44342973-89A2-4CDD-93A4-E7C7A031B800Q35078804-F7E3A471-2515-412C-8355-370C6E2D4B3FQ35139233-AB30EEC6-3D8E-48EA-911B-8ECA6FB9A340Q35159410-DA18301F-E692-42E7-8683-E61631F1D053Q35165178-40826AFF-5FF9-4CFE-A64B-B865EB0174D3
P2860
Invited review: Effects of heat and cold stress on mammalian gene expression.
description
2002 nî lūn-bûn
@nan
2002 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Invited review: Effects of heat and cold stress on mammalian gene expression.
@ast
Invited review: Effects of heat and cold stress on mammalian gene expression.
@en
Invited review: Effects of heat and cold stress on mammalian gene expression.
@nl
type
label
Invited review: Effects of heat and cold stress on mammalian gene expression.
@ast
Invited review: Effects of heat and cold stress on mammalian gene expression.
@en
Invited review: Effects of heat and cold stress on mammalian gene expression.
@nl
prefLabel
Invited review: Effects of heat and cold stress on mammalian gene expression.
@ast
Invited review: Effects of heat and cold stress on mammalian gene expression.
@en
Invited review: Effects of heat and cold stress on mammalian gene expression.
@nl
P2093
P2860
P1476
Invited review: Effects of heat and cold stress on mammalian gene expression.
@en
P2093
Craig M Lilly
Jun Fujita
Larry A Sonna
Stephen L Gaffin
P2860
P304
P356
10.1152/JAPPLPHYSIOL.01143.2001
P407
P577
2002-04-01T00:00:00Z