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Met receptor tyrosine kinase signaling induces secretion of the angiogenic chemokine interleukin-8/CXCL8 in pancreatic cancerA genome-wide siRNA screen in mammalian cells for regulators of S6 phosphorylationComparative analysis of NRF2-responsive gene expression in AcPC-1 pancreatic cancer cell lineExocrine pancreatic carcinogenesis and autotaxin expressionEstablishment and characterization of a highly tumourigenic and cancer stem cell enriched pancreatic cancer cell line as a well defined model systemThe anti-tumor effect of HDAC inhibition in a human pancreas cancer model is significantly improved by the simultaneous inhibition of cyclooxygenase 2Epicatechin stimulates mitochondrial activity and selectively sensitizes cancer cells to radiationDose-Dependent AMPK-Dependent and Independent Mechanisms of Berberine and Metformin Inhibition of mTORC1, ERK, DNA Synthesis and Proliferation in Pancreatic Cancer CellsEfavirenz Has the Highest Anti-Proliferative Effect of Non-Nucleoside Reverse Transcriptase Inhibitors against Pancreatic Cancer CellsPrediction of Candidate Drugs for Treating Pancreatic Cancer by Using a Combined ApproachLong-Circulating Curcumin-Loaded Liposome Formulations with High Incorporation Efficiency, Stability and Anticancer Activity towards Pancreatic Adenocarcinoma Cell Lines In VitroEpithelial-to-mesenchymal transition in pancreatic ductal adenocarcinoma: Characterization in a 3D-cell culture modelEvaluation of a gene-directed enzyme-product therapy (GDEPT) in human pancreatic tumor cells and their use as in vivo models for pancreatic cancerFlatbed epi relief-contrast cellular monitoring system for stable cell culture.Erk2 phosphorylation of Drp1 promotes mitochondrial fission and MAPK-driven tumor growth.Novel regulatory role of neuropilin-1 in endothelial-to-mesenchymal transition and fibrosis in pancreatic ductal adenocarcinomaHistone deacetylase 1 is required for exocrine pancreatic epithelial proliferation in development and cancer.A bioengineered heterotypic stroma-cancer microenvironment model to study pancreatic ductal adenocarcinoma.cAMP inhibits migration, ruffling and paxillin accumulation in focal adhesions of pancreatic ductal adenocarcinoma cells: effects of PKA and EPAC.The involvement of insulin-like growth factor 2 binding protein 3 (IMP3) in pancreatic cancer cell migration, invasion, and adhesionPAK4 interacts with p85 alpha: implications for pancreatic cancer cell migrationA novel microfluidic 3D platform for culturing pancreatic ductal adenocarcinoma cells: comparison with in vitro cultures and in vivo xenograftsTCGA data and patient-derived orthotopic xenografts highlight pancreatic cancer-associated angiogenesisEstablishment and characterization of 6 novel patient-derived primary pancreatic ductal adenocarcinoma cell lines from Korean pancreatic cancer patients.Endogenously Expressed IL-4Rα Promotes the Malignant Phenotype of Human Pancreatic Cancer In Vitro and In Vivo.ATP-Binding Cassette Genes Genotype and Expression: A Potential Association with Pancreatic Cancer Development and Chemoresistance?OSU-A9 inhibits pancreatic cancer cell lines by modulating p38-JAK-STAT3 signalingSTAT3 down regulates LC3 to inhibit autophagy and pancreatic cancer cell growth.Detection of COPB2 as a KRAS synthetic lethal partner through integration of functional genomics screens.Co-delivery of microRNA-21 antisense oligonucleotides and gemcitabine using nanomedicine for pancreatic cancer therapy.Profiling and targeting of cellular bioenergetics: inhibition of pancreatic cancer cell proliferation.Screening for pancreatic cancer: why, how, and who?Oncolytic activity of avian influenza virus in human pancreatic ductal adenocarcinoma cell lines.Generation and characterisation of novel pancreatic adenocarcinoma xenograft models and corresponding primary cell linesPolyisoprenylated methylated protein methyl esterase: a putative biomarker and therapeutic target for pancreatic cancerAntiproliferative effects and mechanisms of liver X receptor ligands in pancreatic ductal adenocarcinoma cells.Genetic inactivation of the pancreatitis-inducible gene Nupr1 impairs PanIN formation by modulating Kras(G12D)-induced senescenceMembrane proteomic analysis of pancreatic cancer cells.Apricoxib, a novel inhibitor of COX-2, markedly improves standard therapy response in molecularly defined models of pancreatic cancer.Down-regulation of GEP100 causes increase in E-cadherin levels and inhibits pancreatic cancer cell invasion.
P2860
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P1343
Q27334957-2BC87D6B-D3A0-4F20-A9A0-458D93D713DBQ28119143-FCC1C968-6998-40BC-AE9B-2798059E9B1FQ28384407-EC1E6E8D-FC6D-4C6B-AA3C-6D42B81315EAQ28482954-1EC349CC-E3FE-4285-B773-6743FF6E1BCEQ28485145-02A6A62A-2E18-4B54-86B9-A6DCF2F7139FQ28533258-B949C503-9F0E-4BA4-9051-B7D8E0B9963FQ28539640-8B28A93F-9D43-4FD7-BCA3-2C798073B8C7Q28542653-3A8E89E0-EA18-4656-A4E8-5FCD0225C8ADQ28548473-4BF6F140-65FF-4D88-84C3-15251F8FB53DQ28550351-B376B957-C10F-475A-893B-43F003EA631EQ28554939-10703007-DDCD-4CB8-A889-33A6571EE43BQ28603184-3DEB302F-918A-427D-9C26-F900775F5F58Q28729144-1616F0C8-80F8-44AC-B18A-AD0E491F650EQ29994724-9A3A4238-2974-4714-90E9-328EA4EADC93Q30300846-D1BA5810-5696-4D1E-BAE4-C72A2E61FE93Q30360377-575E20EC-55D0-4F9A-BF6D-2C60B02CAC51Q30499964-D6A10DA5-7D45-4BF7-9060-D4DDD867795EQ30557486-D719A10F-804A-4C43-8148-513EE2023C55Q30566337-EE13130A-C2DB-4EB6-90CA-16D09BDE1827Q30641525-ACCCC85E-2AF6-49CF-95DE-0A07F7294D19Q30838867-97230EEA-28DF-4E2F-B2D0-BD415B26C008Q30850662-7DB95280-39E6-4E3B-B7B4-B8835BE6B399Q30908891-F69EF283-3AC0-4124-B2F9-481DCC67F344Q33582635-AA70940A-2949-4860-84E7-936ECF021F56Q33624331-D1A3DDC8-27BD-4DC8-9599-4112B648854DQ33634888-17FDEB00-A8E4-4B30-8879-D46E93132156Q33710074-8D9BC26E-6DFC-402D-9252-4C547DB03B2BQ33757027-1D64A6D6-5E84-4F84-AA30-8A51C21EB4F4Q33798340-BB39A1D5-0E5A-418B-83D2-907BB9B880C5Q33873637-8B68B66E-59ED-4282-AA0D-0A54EF7E8085Q33877459-1F787D27-C2F0-4EE0-91D1-07FBE6FFCA46Q33959412-D790B3D5-CE7A-47A3-8B9B-764BBAC6911AQ34059067-1DC6D2EA-1467-4179-9158-FDB0365F9217Q34078502-6B416C91-989D-4CB9-AD2D-300F75E58005Q34128530-2FE94A7F-9B1A-47C3-80D2-B6F531FB18AAQ34128708-857F3CAE-67D6-4C38-8B04-AD0B0F9838C6Q34153531-4589933B-0B7A-4B26-917D-61B9A559F561Q34173879-8F88EB3E-951E-4FC8-B993-25B2A0BF1634Q34290118-BDED570D-D832-4F19-9899-6783130C1635Q34291356-326739D1-B5CE-4F44-A85C-9402AA1B929A
P2860
description
2010 nî lūn-bûn
@nan
2010 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Phenotype and genotype of pancreatic cancer cell lines
@ast
Phenotype and genotype of pancreatic cancer cell lines
@en
type
label
Phenotype and genotype of pancreatic cancer cell lines
@ast
Phenotype and genotype of pancreatic cancer cell lines
@en
prefLabel
Phenotype and genotype of pancreatic cancer cell lines
@ast
Phenotype and genotype of pancreatic cancer cell lines
@en
P2093
P2860
P4510
P1433
P1476
Phenotype and genotype of pancreatic cancer cell lines
@en
P2093
Courtney L Scaife
Emily L Deer
Jessica González-Hernández
Jill D Coursen
Jill E Shea
Josephat Ngatia
Matthew A Firpo
Sean J Mulvihill
P2860
P304
P356
10.1097/MPA.0B013E3181C15963
P577
2010-05-01T00:00:00Z