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P1343
Heterodimerization of glycosylated insulin-like growth factor-1 receptors and insulin receptors in cancer cells sensitive to anti-IGF1R antibodyLapatinib, a dual EGFR and HER2 tyrosine kinase inhibitor, downregulates thymidylate synthase by inhibiting the nuclear translocation of EGFR and HER2.Reduced Autophagy in 5-Fluorouracil Resistant Colon Cancer CellsFrequent amplification of CENPF, GMNN and CDK13 genes in hepatocellular carcinomasZipper-interacting protein kinase promotes epithelial-mesenchymal transition, invasion and metastasis through AKT and NF-kB signaling and is associated with metastasis and poor prognosis in gastric cancer patients.p21-Activated Kinase 4 (PAK4) as a Predictive Marker of Gemcitabine Sensitivity in Pancreatic Cancer Cell Lines.Notch1 counteracts WNT/β-catenin signaling through chromatin modification in colorectal cancer.Synergistic inhibition of hepatocellular carcinoma growth by cotargeting chromatin modifying enzymes and poly (ADP-ribose) polymerases.Reduced cohesin destabilizes high-level gene amplification by disrupting pre-replication complex bindings in human cancers with chromosomal instability.Estradiol induces apoptosis via activation of miRNA-23a and p53: implication for gender difference in liver cancer development.Vaccinia-related kinase 1 promotes hepatocellular carcinoma by controlling the levels of cell cycle regulators associated with G1/S transition.NVP-BKM120, a novel PI3K inhibitor, shows synergism with a STAT3 inhibitor in human gastric cancer cells harboring KRAS mutations.Aberrant Epigenetic Modifications of LPHN2 Function as a Potential Cisplatin-Specific Biomarker for Human Gastrointestinal Cancer.Carboxyl-Terminal Modulator Protein Positively Acts as an Oncogenic Driver in Head and Neck Squamous Cell Carcinoma via Regulating Akt phosphorylationDecreased mitochondrial OGG1 expression is linked to mitochondrial defects and delayed hepatoma cell growth.Bone morphogenetic protein-9 is a potent growth inhibitor of hepatocellular carcinoma and reduces the liver cancer stem cells population.Genomic and proteomic characterization of ARID1A chromatin remodeller in ampullary tumors.Evaluation of Lapatinib Powder-Entrapped Biodegradable Polymeric Microstructures Fabricated by X-Ray Lithography for a Targeted and Sustained Drug Delivery SystemModulation of transcription factor binding and epigenetic regulation of the MLH1 CpG island and shore by polymorphism rs1800734 in colorectal cancer.Combined targeting of high-mobility group box-1 and interleukin-8 to control micrometastasis potential in gastric cancer.Epithelial-mesenchymal transition confers resistance to selective FGFR inhibitors in SNU-16 gastric cancer cellsGAGE12 mediates human gastric carcinoma growth and metastasis.Anti-cancer effect of a quinoxaline derivative GK13 as a transglutaminase 2 inhibitor.Claudin-1 induces epithelial-mesenchymal transition through activation of the c-Abl-ERK signaling pathway in human liver cells.Resistance to paclitaxel in hepatoma cells is related to static JNK activation and prohibition into entry of mitosis.The irreversible pan-HER inhibitor PF00299804 alone or combined with gemcitabine has an antitumor effect in biliary tract cancer cell lines.Antitumor activity of NVP-AUY922, a novel heat shock protein 90 inhibitor, in human gastric cancer cells is mediated through proteasomal degradation of client proteins.C-terminal truncated hepatitis B virus X protein promotes hepatocellular carcinogenesis through induction of cancer and stem cell-like properties.Lipid raft-dependent death receptor 5 (DR5) expression and activation are critical for ursodeoxycholic acid-induced apoptosis in gastric cancer cells.Aberrant GATA2 epigenetic dysregulation induces a GATA2/GATA6 switch in human gastric cancer.Targeting HIF1α peri-operatively increased post-surgery survival in a tongue cancer animal model.Galanin is an epigenetically silenced tumor suppressor gene in gastric cancer cells.
P2860
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P1343
Q27306977-06A307AF-C70E-43CB-8117-17CF803B3F68Q33468432-BA848DA3-B0AA-4282-979E-6BEB478C7BCCQ33655918-7E8F0310-6648-4F18-A148-DE49E144C697Q34389427-00CBA2C1-7415-48C3-BB68-29E33811C8AAQ35781586-E2E2EAAF-9DFD-4ADB-ADE3-AE852F058EFEQ35862333-2EE8ED73-4530-49B1-BCA2-F15121DAFDDEQ36190689-17B92ABE-BA19-410B-A0B4-90D853B0F19AQ36315855-D360D637-7B2C-4A02-ABF3-B29B443A47FBQ36532727-8B8C1236-88B1-40E9-A77F-C43CED98CFBDQ36544261-5082A120-12E1-4D69-978F-894529C37563Q36557517-7BA93444-46CA-44E4-9782-D85D173E8086Q36645788-9F5EE3AE-C106-47A8-A327-295674C25607Q36832161-59455EA4-4491-43D4-9F5F-1B00BE272EA2Q37027400-24F3FF45-5E3C-430E-A619-A35C17304294Q37462242-7A11B2B8-1A2C-451C-A3DA-C010AC6C2D14Q37687466-8CEBFAD3-03F0-4232-9E73-08EC5559DF6BQ37743503-9917074E-28B4-434F-BCD4-78BCBF260016Q38634426-65BB61E6-1F1A-4936-91CA-DBF7C54C100EQ38711869-1B128374-B23F-4244-B010-A48A293E0797Q38893404-DE6CD0EA-F015-4D65-AD72-1040E26679F8Q38939465-A78172D3-B4F4-4467-998A-BA1A1DF24818Q38945005-2ACA2EF4-84A0-4950-BFBE-5FB81000C865Q39162858-86AE2BE7-2743-4D43-9E3C-317D549AF036Q39243212-2CFE24B8-E6F3-4306-928A-26A349C2ECCCQ39398543-2F87D176-62CA-4DD2-9E7B-3C3818D7FF9AQ39422598-68711E7C-9D9D-4694-BA82-D6BBF1B76AB4Q39567800-8633BE43-6387-4584-831E-4A0FF49FFD89Q40744258-428020A1-4358-487B-A0B2-FFB3F1069084Q42747951-AFD88A3C-3CCC-46C7-8E46-7B5745EA08A6Q50141292-9C600AB0-6C8A-4C9A-A694-C23CB11323DCQ51019842-EF6AB597-B29F-4F42-B4C6-5565BC538B25Q51749781-CC36D0B6-94FE-45BC-9820-F407C4CA9263
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 28 February 2005
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Biology of SNU cell lines.
@en
Biology of SNU cell lines.
@nl
type
label
Biology of SNU cell lines.
@en
Biology of SNU cell lines.
@nl
prefLabel
Biology of SNU cell lines.
@en
Biology of SNU cell lines.
@nl
P2860
P4510
P356
P1476
Biology of SNU cell lines.
@en
P2093
Jae-Gahb Park
P2860
P356
10.4143/CRT.2005.37.1.1
P577
2005-02-28T00:00:00Z