Induction of glucose-regulated proteins during anaerobic exposure and of heat-shock proteins after reoxygenation
about
Unfolding the Role of Large Heat Shock Proteins: New Insights and Therapeutic ImplicationsHigh molecular weight stress proteins: Identification, cloning and utilisation in cancer immunotherapyThe Endoplasmic Reticulum Chaperone GRP170: From Immunobiology to Cancer TherapeuticsThe impact of O2 availability on human cancerIdentification of genes differentially expressed in canine vasospastic cerebral arteries after subarachnoid hemorrhage.The hsp110 and Grp1 70 stress proteins: newly recognized relatives of the Hsp70s.Hypoxia induces endothelin gene expression and secretion in cultured human endotheliumEndothelial cell tolerance to hypoxia. Potential role of purine nucleotide phosphates.Induction of superoxide dismutase in Escherichia coli by heat shock.Coinduction of glucose-regulated proteins and doxorubicin resistance in Chinese hamster cells.Induction of vascular endothelial growth factor expression by hypoxia and by glucose deficiency in multicell spheroids: implications for tumor angiogenesisHeat shock proteins in hypoxic-ischemic brain injury: a perspective.Emerging role of heat shock proteins in biology and medicine.Alteration of adenyl dinucleotide metabolism by environmental stressHypoxia induces a specific set of stress proteins in cultured endothelial cells.Immunohistochemical evidence of oxidative [corrected] stress in Alzheimer's disease.Enhanced synthesis of stress proteins caused by hypoxia and relation to altered cell growth and metabolism.The identification of heme oxygenase as a major hypoxic stress protein in Chinese hamster ovary cells.Glucose starvation and acidosis: effect on experimental metastatic potential, DNA content and MTX resistance of murine tumour cells.Regulation of cell proliferation under extreme and moderate hypoxia: the role of pyrimidine (deoxy)nucleotides.The retinoblastoma protein-associated cell cycle arrest in S-phase under moderate hypoxia is disrupted in cells expressing HPV18 E7 oncoproteinAdaptive response, evidence of cross-resistance and its potential clinical useHeat shock proteins in bacilli.Hypoxia and inflammatory synovitis: observations and speculationRegulation of c-jun expression during hypoxic and low-glucose stress.Hypoxia induces accumulation of p53 protein, but activation of a G1-phase checkpoint by low-oxygen conditions is independent of p53 status.Transactivation of the grp78 promoter by malfolded proteins, glycosylation block, and calcium ionophore is mediated through a proximal region containing a CCAAT motif which interacts with CTF/NF-IDepletion of topoisomerase II in isolated nuclei during a glucose-regulated stress responseComplex regulation of heat shock- and glucose-responsive genes in human cells.Heat shock induces the release of fibroblast growth factor 1 from NIH 3T3 cellsHypoxia alters early gestation human cytotrophoblast differentiation/invasion in vitro and models the placental defects that occur in preeclampsia.Perturbations in maturation of secretory proteins and their association with endoplasmic reticulum chaperones in a cell culture model for epithelial ischemia.The heat shock protein response and its role in inflammatory disease.Glucose-regulated proteins in cancer: molecular mechanisms and therapeutic potentialPlateau-phase cultures: an experimental model for identifying drugs which are bioactivated within the microenvironment of solid tumours.Heat shock and the heat shock proteins.Elevation of superoxide dismutase in Halobacterium halobium by heat shock.A role for the human DNA repair enzyme HAP1 in cellular protection against DNA damaging agents and hypoxic stress.Hypoxia modulates the barrier and coagulant function of cultured bovine endothelium. Increased monolayer permeability and induction of procoagulant properties.Adaptive response and oxidative stress.
P2860
Q26765920-B3A7CF56-6A62-4AD5-BD5F-EB638BF2012FQ26853566-C7188E2A-C5CA-4E29-91B0-EE01EC483405Q27026256-A97C72D9-8389-4286-80B6-DB290A44E1C3Q29619884-969FC6DD-E800-4C10-9D3B-1C07A271D347Q30814887-62FFE841-6BD0-4239-8641-266E52D590D9Q34068953-8FFF2E88-FBD7-425C-AE6D-68CBEBE9F2B3Q34200622-F42F3A43-53E5-4CDC-A339-4F58084995D2Q34201649-6B1F9E15-75DF-4E1B-8483-73A0988A6341Q34617507-3AA9DB64-3BA5-4013-9A94-84A8E2E56AC8Q34623423-04433BDC-5424-423F-A085-5DCB426670B4Q34729610-461861AB-6E49-4689-BDAA-45EB7886552AQ35246221-B8F4BABC-322C-4181-AE8F-41AB2D84FB58Q35354306-43ABBE9A-5A1A-40CD-8225-0CA1EBACF181Q35598863-97D1895B-9F42-4628-91C3-ECF34C941CEFQ35819645-E273958F-7C5E-4E96-858C-3CFB2EAEC576Q35830671-F4660347-98A3-4049-AFD6-232B79BA8363Q35983105-13294A3F-0350-409A-9A1C-A54724503B60Q35992804-51BB1463-7C78-4FAC-804D-0795FBCF9A76Q35993893-273EC769-CD23-4286-8477-21D00D614896Q36080126-8882A736-6A0E-47D0-A19B-B734F741819AQ36292167-E94FB9A5-D64C-4F6C-9C70-9851E9065F39Q36321702-3954BC0F-FF52-4B39-A1A0-C8B7623FECD6Q36358868-8C55B387-11DB-486D-AC4A-26C81F44749CQ36629977-3432B6AE-8062-4A72-A0EE-44B57FCE19C1Q36662280-8DDCC9CF-F2DD-4737-9C35-33213A110093Q36665942-85CD648D-DF4E-482F-BF0E-9E4B9AB137F6Q36747593-6C4E5790-408A-4824-9B92-A95AE885E0EAQ36758651-DD53B212-6805-4416-9F11-E55B4628B472Q36781017-25C6E58A-1E9C-4E53-8E85-F2B2DE8AA3F8Q37293193-2E07B458-2990-49DB-ACB8-CFFE92654260Q37350668-2781DA6E-8B21-4AC6-83F4-220CEEAD9CEDQ37411327-5780A9F1-AC51-4F18-9977-CFD96EED54D7Q37908837-40385917-65DE-4EDE-82A2-F0759E10E020Q38198491-0D041BE1-C791-437E-8163-AD21D2AC79EEQ39713362-07703D3B-6A96-45E8-9D62-DA44FE1FA8DDQ39757320-1D64FE5A-1F8D-4A01-A15E-D50170BF892BQ39943060-FE368D7B-D01B-4791-837B-E8801E78A423Q40231225-390A5BE9-2E67-4D2B-98C2-E331D38326E2Q40346861-752F27AD-8208-4A6A-B0AF-0DD9236D6017Q40500060-4BBBF6FE-4B45-48E2-A7CA-8BA00B35F775
P2860
Induction of glucose-regulated proteins during anaerobic exposure and of heat-shock proteins after reoxygenation
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on August 1984
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Induction of glucose-regulated ...... k proteins after reoxygenation
@en
Induction of glucose-regulated ...... proteins after reoxygenation.
@nl
type
label
Induction of glucose-regulated ...... k proteins after reoxygenation
@en
Induction of glucose-regulated ...... proteins after reoxygenation.
@nl
prefLabel
Induction of glucose-regulated ...... k proteins after reoxygenation
@en
Induction of glucose-regulated ...... proteins after reoxygenation.
@nl
P2093
P2860
P356
P1476
Induction of glucose-regulated ...... k proteins after reoxygenation
@en
P2093
Sciandra JJ
Subjeck JR
P2860
P304
P356
10.1073/PNAS.81.15.4843
P407
P577
1984-08-01T00:00:00Z