Molecular circuits of solid tumors: prognostic and predictive tools for bedside use.
about
Biomarkers of nanomaterial exposure and effect: current statusSpatial Genome Organization and Its Emerging Role as a Potential Diagnosis ToolPoint-of-care testing in the diagnosis of gastrointestinal cancers: current technology and future directionsERCC1 and XRCC1 as biomarkers for lung and head and neck cancerNovel PI3K/Akt inhibitors screened by the cytoprotective function of human immunodeficiency virus type 1 TatSystematic assessment of analytical methods for drug sensitivity prediction from cancer cell line dataPrognostic biomarkers in ovarian cancer.Clinical development of phosphatidylinositol 3-kinase inhibitors for non-Hodgkin lymphomaThe importance of autophagy regulation in breast cancer development and treatment.MicroRNA-497 targets insulin-like growth factor 1 receptor and has a tumour suppressive role in human colorectal cancerTrkC expression predicts favorable clinical outcome in invasive ductal carcinoma of breast independent of NT-3 expression.Characteristic mTOR activity in Hodgkin-lymphomas offers a potential therapeutic target in high risk disease--a combined tissue microarray, in vitro and in vivo study.Stepwise group sparse regression (SGSR): gene-set-based pharmacogenomic predictive models with stepwise selection of functional priors.Prediction of individual response to anticancer therapy: historical and future perspectivesTissue biomarkers as predictors of outcome and selection of transplant candidates with hepatocellular carcinomaAutomated Analysis and Classification of Histological Tissue Features by Multi-Dimensional Microscopic Molecular Profiling.IL-4 induces proliferation in prostate cancer PC3 cells under nutrient-depletion stress through the activation of the JNK-pathway and survivin up-regulation.Dramatic reduction of sequence artefacts from DNA isolated from formalin-fixed cancer biopsies by treatment with uracil- DNA glycosylase.Hemopexin as biomarkers for analyzing the biological responses associated with exposure to silica nanoparticles.Locus-specific gene repositioning in prostate cancerINPP4B is upregulated and functions as an oncogenic driver through SGK3 in a subset of melanomas.UHRF1 overexpression is involved in cell proliferation and biochemical recurrence in prostate cancer after radical prostatectomyPI(4,5)P2 5-phosphatase A regulates PI3K/Akt signalling and has a tumour suppressive role in human melanomaINPP4B is an oncogenic regulator in human colon cancer.Loss of PI(4,5)P2 5-Phosphatase A Contributes to Resistance of Human Melanoma Cells to RAF/MEK Inhibitors.Impact of bioinformatic procedures in the development and translation of high-throughput molecular classifiers in oncology.The role of personalized medicine in metastatic colorectal cancer: an evolving landscape.Targeted-capture massively-parallel sequencing enables robust detection of clinically informative mutations from formalin-fixed tumours.Methodological and practical challenges for personalized cancer therapies.Possible role of autophagy in the treatment of pancreatic cancer with histone deacetylase inhibitors.Role of autophagy and its significance in cellular homeostasis.CD133 facilitates epithelial-mesenchymal transition through interaction with the ERK pathway in pancreatic cancer metastasis.Involvement of vacuolar H(+)-ATPase in killing of human melanoma cells by the sphingosine kinase analogue FTY720.Oncogenic suppression of PHLPP1 in human melanoma.Tumor cell group via phospholipase A₂ is involved in prostate cancer development.Ergosterol peroxide inhibits ovarian cancer cell growth through multiple pathways.Short-term spheroid culture of primary colorectal cancer cells as an in vitro model for personalizing cancer medicine.LY294002 and Rapamycin promote coxsackievirus-induced cytopathic effect and apoptosis via inhibition of PI3K/AKT/mTOR signaling pathway.Translational Medicine is developing in China: a new venue for collaboration.Uptake of KRAS mutation testing in patients with metastatic colorectal cancer in Europe, Latin America and Asia.
P2860
Q23913784-DF483CF9-DB58-4524-AFDE-BC9F9C04C605Q26738275-05E18A47-3551-434E-B5C8-7C8272E51F07Q27000391-8A152376-25D3-40B2-8951-CD114206EB48Q28391646-732CD150-3D16-4297-BC35-0D4AE7DA8DE5Q28478994-1353797A-E925-4B1A-B85F-61D9B4821257Q30705777-C1B07F2B-C36B-4224-AF50-DDA7BBC43AB0Q34086636-734ED5EB-5E1D-4C52-9ACB-AC29C2A3EC11Q34255861-F767A64B-EF16-4886-8870-9139E9BE52B6Q34275855-32235A6F-2D18-4312-81C3-DC4C79E2AE4BQ34282551-A15DDB41-E855-4621-854F-2126FCAE6D7CQ34704932-6E557D5E-2344-452A-91EC-409237828E42Q34732945-C714D61D-D204-4938-8FDE-13472F612B89Q34988221-533461C8-DDCC-403F-8081-E2E2C9B71C81Q35024682-09D7D6D4-CF90-42F0-A336-8482AE8EEF44Q35187751-54915921-C665-46A6-9C30-E4B7A2D2D808Q35692129-141171D6-D2F0-4842-A204-8216859D9BEBQ35914656-93BDE5AB-57C4-4D32-9374-992FB2D954C3Q36071877-F079CBF8-75C6-4124-B4CD-6196D3159FDBQ36368022-72FB9DF2-20FE-4A42-8341-47714AEC3BE6Q36463336-001EFFA7-9F9D-404D-B7B4-854BABD96304Q36545503-0BB24BD8-1CCD-4B81-9D1E-C54AA781D156Q36587931-89659EBB-56AF-41F5-91FF-F7D5D1FD01D1Q36652026-F3B11528-CB8F-40F4-9B2D-2202C618EC67Q37005755-661DB786-E2F0-4569-A2D7-CED8310114F8Q37060963-C29D2EBC-6374-4702-82AE-7EBE78650C39Q37100056-45D6071E-BE66-470E-B3B9-30597E6A48ADQ37130603-811DE65D-28AA-46AB-A80B-E12FC2C26F91Q37389151-E9B89624-DA59-4B5E-BE83-CD58E6FE5430Q37848661-FF28334C-BFD6-4A57-82BC-D33E1C11A8B6Q38166587-BB5A62A0-E159-4FE6-91FC-0284B951FA94Q38205378-982BF35C-A99E-4B6D-8673-E3953918AF33Q38309415-E59CEE40-A051-4A33-886E-10F1E583E58CQ38943724-87341AD0-DD37-4494-95B7-D2F0B329B95CQ39079831-F2FDBE62-1125-4519-A391-3A4702353900Q39660426-29000347-1773-48E9-AED8-9C5023DBAAC8Q41070534-624955AF-F3DB-4077-9593-ECC62150A969Q41633592-0882C28B-96D1-4371-871B-2FF3DB563618Q42266429-2602DBA1-4752-4483-827C-1DC04F8026EBQ42575734-10930077-D857-44C8-A85B-05812289EEB4Q43500076-D19A5B74-FD63-45B4-B95A-195022F84B01
P2860
Molecular circuits of solid tumors: prognostic and predictive tools for bedside use.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 15 June 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Molecular circuits of solid tumors: prognostic and predictive tools for bedside use.
@en
Molecular circuits of solid tumors: prognostic and predictive tools for bedside use.
@nl
type
label
Molecular circuits of solid tumors: prognostic and predictive tools for bedside use.
@en
Molecular circuits of solid tumors: prognostic and predictive tools for bedside use.
@nl
prefLabel
Molecular circuits of solid tumors: prognostic and predictive tools for bedside use.
@en
Molecular circuits of solid tumors: prognostic and predictive tools for bedside use.
@nl
P1476
Molecular circuits of solid tumors: prognostic and predictive tools for bedside use.
@en
P2093
Charles Ferté
P2860
P304
P356
10.1038/NRCLINONC.2010.84
P407
P577
2010-06-15T00:00:00Z