about
Role of TRP channels in the induction of heat shock proteins (Hsps) by heating skinAnti-Inflammatory Mechanism Involved in Pomegranate-Mediated Prevention of Breast Cancer: the Role of NF-κB and Nrf2 Signaling Pathways.In vitro synergistic action of geldanamycin- and docetaxel-containing HPMA copolymer-RGDfK conjugates against ovarian cancerTrianthema portulacastrum Linn. displays anti-inflammatory responses during chemically induced rat mammary tumorigenesis through simultaneous and differential regulation of NF-κB and Nrf2 signaling pathways.17-AAG suppresses growth and invasion of lung adenocarcinoma cells via regulation of the LATS1/YAP pathway.Comparison and validation of genomic predictors for anticancer drug sensitivity.Targeting HSP90 and monoclonal protein trafficking modulates the unfolded protein response, chaperone regulation and apoptosis in myeloma cells.Suppression of inflammatory cascade is implicated in methyl amooranin-mediated inhibition of experimental mammary carcinogenesis.Targeting the LKB1 tumor suppressor.Heat shock proteins in cancer: targeting the 'chaperones'.Hsp90-binding immunophilins as a potential new platform for drug treatment.Modulation of protein quality control systems by food phytochemicals.Heat shock protein 27 expression is inversely correlated with atrophic gastritis and intraepithelial neoplasia.Comparative protein profiling of B16 mouse melanoma cells susceptible and non-susceptible to alphavirus infection: Effect of the tumor microenvironment.Metastatic gastric cancer - focus on targeted therapies.Rho GTPases: RAC1 polymorphisms affected platinum-based chemotherapy toxicity in lung cancer patients.Characterization of TsDAF-21/HSP90 protein from the parasitic nematode Trichinella spiralis.Anticancer effects of plant derived Anacardic acid on human breast cancer MDA-MB-231 cells
P2860
Q28085547-121D4EF4-8E26-44DF-A20B-1D0602CD462DQ33749203-B94B5A14-3AA9-475F-A76C-542455C19C17Q34674722-1679BAD6-98C1-48C4-B8CD-64B0FD32EB42Q35138880-58DFBCC2-82E4-454D-8888-E968BC795438Q35206531-E49E14C0-18E6-4901-B425-61A98C810770Q37039879-DC23D9FD-107B-431C-A5DF-FDFEBF60576DQ37423748-5EF842C8-7597-46BD-9D50-79EC21D7ABB5Q37466405-CF2BC25E-27DC-4ECF-B09C-54A4C10B82EDQ37506032-3FF0575E-5329-43DA-9CA0-1DD93A865671Q38008726-254D5445-3DF5-433A-B990-55914189204EQ38097870-953FE8F7-AC5C-4D82-AE59-DC78E369962CQ38109158-400C141D-83D3-4E31-8A11-A62CECA750BFQ39298912-EAFC8E53-9D8E-4CB6-ADB6-4CBE95EC5663Q40537831-073237E6-54DE-4C71-B4FB-B39217A5FB60Q41907024-58BA0484-4766-4866-8152-FC4C299F9F15Q51703834-4A3F20DE-804C-493F-AF4B-44A90742A7A6Q54291533-E1EB9E49-54F6-456C-B661-3CF8926BCB6DQ58775975-D837699E-C3FA-4991-8284-477E11C1C014
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on December 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Heat shock proteins: a potential anticancer target.
@en
Heat shock proteins: a potential anticancer target.
@nl
type
label
Heat shock proteins: a potential anticancer target.
@en
Heat shock proteins: a potential anticancer target.
@nl
prefLabel
Heat shock proteins: a potential anticancer target.
@en
Heat shock proteins: a potential anticancer target.
@nl
P2093
P1433
P1476
Heat shock proteins: a potential anticancer target.
@en
P2093
Alain C Mita
Chris H Takimoto
Kamalesh K Sankhala
Monica M Mita
P304
P356
10.2174/138945011798829339
P577
2011-12-01T00:00:00Z