about
Systematic comparative protein expression profiling of clear cell renal cell carcinoma: a pilot study based on the separation of tissue specimens by two-dimensional gel electrophoresis.Calcium regulates tertiary structure and enzymatic activity of human endometase/matrilysin-2 and its role in promoting human breast cancer cell invasion.Binding of anti-GRP78 autoantibodies to cell surface GRP78 increases tissue factor procoagulant activity via the release of calcium from endoplasmic reticulum stores.Expression of TRPC6 channels in human epithelial breast cancer cells.Regulation of C/EBPbeta isoforms by MAPK pathways in HL60 cells induced to differentiate by 1,25-dihydroxyvitamin D3Calpain 1 inhibitor BDA-410 ameliorates α-klotho-deficiency phenotypes resembling human aging-related syndromes.Inositol 1,4,5-trisphosphate-induced Ca2+ signalling is involved in estradiol-induced breast cancer epithelial cell growth.Off Label Antiviral Therapeutics for Henipaviruses: New Light Through Old Windows.Dairy consumption and calcium intake and risk of breast cancer in a prospective cohort: the Norwegian Women and Cancer study.Vimentin as an integral regulator of cell adhesion and endothelial sprouting.Lipopeptide biosurfactant pseudofactin II induced apoptosis of melanoma A 375 cells by specific interaction with the plasma membrane.Low intensity and frequency pulsed electromagnetic fields selectively impair breast cancer cell viability.The anti-cancer and anti-inflammatory actions of 1,25(OH)₂D₃Sulfiredoxin-1 exerts anti-apoptotic and neuroprotective effects against oxidative stress-induced injury in rat cortical astrocytes following exposure to oxygen-glucose deprivation and hydrogen peroxide.Mechanistic Effects of Calcitriol in Cancer BiologyTargeting Caspase-12 to Preserve Vision in Mice With Inherited Retinal Degeneration.Not enough vitamin D: health consequences for CanadiansDystrophin and dysferlin double mutant mice: a novel model for rhabdomyosarcomaVitamin D: beyond bone.Surfactin-induced apoptosis through ROS-ERS-Ca2+-ERK pathways in HepG2 cellsIndividualized analysis reveals CpG sites with methylation aberrations in almost all lung adenocarcinoma tissues.Cooperative interaction of trp melastatin channel transient receptor potential (TRPM2) with its splice variant TRPM2 short variant is essential for endothelial cell apoptosisCalcium and vitamin D in obesity.Current progress in using vitamin D and its analogs for cancer prevention and treatment.Molecular aspects of vitamin D anticancer activity.Deorphanization and characterization of the ectopically expressed olfactory receptor OR51B5 in myelogenous leukemia cellsCalcium plays a key role in paraoxon-induced apoptosis in EL4 cells by regulating both endoplasmic reticulum- and mitochondria-associated pathways.Do fasudil and Y-27632 affect the level of transient receptor potential (TRP) gene expressions in breast cancer cell lines?Molecular discrimination of cutaneous squamous cell carcinoma from actinic keratosis and normal skin.Evidence that TRPM7 is required for breast cancer cell proliferation.The effect of bovine rotavirus and its nonstructural protein 4 on ER stress-mediated apoptosis in HeLa and HT-29 cells.Calcium homeostasis in diabetes mellitus.Anticancer Activities of Surfactin and Potential Application of Nanotechnology Assisted Surfactin Delivery.Impedance flow cytometry gauges proliferative capacity by detecting TRPC1 expression.High vitamin D and calcium intakes reduce diet-induced obesity in mice by increasing adipose tissue apoptosis.GABAB receptor regulates proliferation in the high-grade chondrosarcoma cell line OUMS-27 via apoptotic pathways.Off-line two-dimensional liquid chromatography for metabolomics: an example using Agaricus bisporus mushrooms exposed to UV irradiation
P2860
Q30319002-C6376478-8206-4AA6-9390-ECE572E039B9Q30358846-937B64CA-A893-4806-AC40-9EDD9AA1F1FBQ30496573-382A5329-835A-406F-A2E4-2996414B3F66Q33331489-FE312C22-42D3-4FEC-93FE-7698893CFDFFQ33622844-42F5C53A-A590-4D52-93AA-DFB6908D6C82Q33986838-14EA76B1-8E29-49CB-965D-44FB86B59D4CQ34004585-04618CE6-57FC-4612-A25A-A4352ABFB846Q34021811-ABFC0B36-E0A3-4886-A741-9A7C95497742Q34222445-41D7A71F-4A08-499D-983D-95E1A2610383Q34395548-F1CF1954-91F4-4E79-9152-424DBBDB2044Q34618542-D03D7067-2592-4EB0-AF30-DDEECDD77755Q34988681-AD8C2A4A-D9B9-4B2F-BDC8-1623EA513CB4Q35188826-9191B4AB-66E7-4A46-B37A-95037E3E51ADQ35625345-3B90DA8C-71EF-449F-8B97-F0880B36B602Q35809076-4C572FB3-8641-4D6A-9A2F-6D2B9F5BBF9BQ35891934-3C8EE7D2-5711-450A-BC1D-7B223D2869E4Q35941928-33B007F4-0105-4A0B-B9A8-9D0E9F43CE84Q36025454-343E9B52-CAB1-42EF-9138-116844755733Q37029038-E043B402-DFD5-48C3-8AFE-D9ABCFD0D042Q37337584-9BA3C7FC-7D18-4B54-8E6B-68BE4B759D56Q37633624-58F0EAC9-FD43-4DAB-8813-7E1FEE3437CBQ37690296-374FDA53-374D-4AD3-B9AD-51DA3B568058Q38010322-91FF4BC7-A7D7-4051-99AB-ACC3DBA7D49AQ38020247-C147DE6A-57DD-4ACE-8490-87D27D018FE1Q38042081-26CD8C4F-18CB-421E-9318-CCABEAD7C5B0Q38750634-AC929A50-2095-4529-AEE9-43EC15BC700AQ38784554-3D7B1098-7013-4AC5-B5E7-09EC69AEFAC3Q38993976-32773C9B-99F0-4DB5-9069-50D8F5628622Q39730392-AC13A713-2D9C-4EEE-BD15-4FE28AA11F3DQ39839646-E2A88922-3164-4E81-ABC9-23057923DD28Q40970538-1C3C4AEA-4482-4D6A-9960-2AB99C5B6DDEQ41996444-79AC92DA-80FC-4494-B2D5-8B758E0AACFAQ45988894-251E7A32-FBB6-4ED9-BD70-63AFB3E196C7Q50676881-DFEEAD80-F47B-4B13-97C7-E404D9C361D6Q51757267-90D5984F-DF38-4D80-957B-A56A266B487BQ52668912-23EED3E6-A043-4EED-821A-488827C72F5DQ57778581-9AFDB212-9F9B-4856-BE55-7A27AF596F10
P2860
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
@zh
2005年论文
@zh-cn
name
Calcium signaling in cancer and vitamin D.
@ast
Calcium signaling in cancer and vitamin D.
@en
type
label
Calcium signaling in cancer and vitamin D.
@ast
Calcium signaling in cancer and vitamin D.
@en
prefLabel
Calcium signaling in cancer and vitamin D.
@ast
Calcium signaling in cancer and vitamin D.
@en
P1476
Calcium signaling in cancer and vitamin D.
@en
P2093
Igor N Sergeev
P304
P356
10.1016/J.JSBMB.2005.06.007
P577
2005-08-02T00:00:00Z