Identification of candidate cancer-causing genes in mouse brain tumors by retroviral tagging
about
Sulf-2, a proangiogenic heparan sulfate endosulfatase, is upregulated in breast cancerMouse models for the discovery of colorectal cancer driver genesP-Rex1 cooperates with PDGFRβ to drive cellular migration in 3D microenvironmentsDetecting statistically significant common insertion sites in retroviral insertional mutagenesis screensTheranostic impact of NG2/CSPG4 proteoglycan in cancerDISP3 promotes proliferation and delays differentiation of neural progenitor cellsGenetic ablation of Rhbg in the mouse does not impair renal ammonium excretionMicroRNAs and genomic instability.Orthologous microRNA genes are located in cancer-associated genomic regions in human and mouseThe transcription factor Nfix is essential for normal brain development.Identification of novel Bach2 transcripts and protein isoforms through tagging analysis of retroviral integrations in B-cell lymphomas.A DNA sequence directed mutual transcription regulation of HSF1 and NFIX involves novel heat sensitive protein interactions.An Integrated Genetic-Genomic Approach for the Identification of Novel Cancer Loci in Mice Sensitized to c-Myc-Induced Apoptosis.miRNA-21 is developmentally regulated in mouse brain and is co-expressed with SOX2 in gliomaThe genome of the chicken DT40 bursal lymphoma cell line.Cyclic GMP-dependent protein kinase II inhibits cell proliferation, Sox9 expression and Akt phosphorylation in human glioma cell lines.CeRh1 (rhr-1) is a dominant Rhesus gene essential for embryonic development and hypodermal function in Caenorhabditis elegansCancer gene discovery in mouse and man.Retroviruses hijack chromatin loops to drive oncogene expression and highlight the chromatin architecture around proto-oncogenic loci.Developmental regulation of microRNA expression in Schwann cellsHeparan sulfate sulfatase SULF2 regulates PDGFRα signaling and growth in human and mouse malignant gliomaCooperating cancer-gene identification through oncogenic-retrovirus-induced insertional mutagenesis.Myc proteins in brain tumor development and maintenance.Glioblastoma--a moving target.SULF2 Expression Is a Potential Diagnostic and Prognostic Marker in Lung Cancer.Novel therapeutic targets in the brain tumor microenvironmentRetroviral insertional mutagenesis: past, present and future.Review: In vivo models for defining molecular subtypes of the primitive neuroectodermal tumor genome: current challenges and solutions.SULF2 expression by immunohistochemistry and overall survival in oesophageal cancer: a cohort study.Platelet-derived growth factor receptor alpha in glioma: a bad seedLarge-scale mutagenesis in p19(ARF)- and p53-deficient mice identifies cancer genes and their collaborative networks.Proteoglycans and their roles in brain cancer.Leukemic transformation in mice expressing a NUP98-HOXD13 transgene is accompanied by spontaneous mutations in Nras, Kras, and Cbl.Tumor progression and oncogene addiction in a PDGF-B-induced model of gliomagenesis.Involvement of SULF2 in y-irradiation-induced invasion and resistance of cancer cells by inducing IL-6 expression.Rethinking brain tumors: the fourth Mouse Models of Human Cancers Consortium nervous system tumors workshop.Identification of PDE4D as a proliferation promoting factor in prostate cancer using a Sleeping Beauty transposon-based somatic mutagenesis screenNuclear factor one B (NFIB) encodes a subtype-specific tumour suppressor in glioblastoma.Sulf-2: an extracellular modulator of cell signaling and a cancer target candidate.Genetic modeling of gliomas in mice: new tools to tackle old problems.
P2860
Q24550887-B52732BF-754B-4339-910A-9D791D733ECAQ26774627-3793C6FA-7146-412F-BEA2-16C9642AF40AQ27320507-F2059D2E-CB9F-4761-9878-B6DF882E7BBBQ27339599-7048C8D0-2272-4FBC-B6AC-F6DC52A862C6Q28085331-5564D038-8BD6-4760-8747-736F4661A965Q28116426-4568AA5D-E97E-407E-AF13-6C2463E46025Q28509463-3D14E0B8-A03A-4E57-A6C9-8F3E218C5873Q31078551-A109CC64-E4B9-4357-BE30-15B828ED46B9Q33305346-67F42434-E1DE-4442-9A9C-92ED83BA3AE6Q33334247-6F454540-6AB0-49BB-BA41-922EFF6F7D90Q33401677-5B9DE3A2-BC59-476E-98CB-47A657E763AAQ33425228-953E60E5-F64A-4448-90A5-C12C28E2DF4CQ34171480-50F7373F-76E6-4F64-9CC9-F63F1ED34949Q34397174-D14CFDEE-09A1-4C77-A14D-85C233E0E5ADQ34514559-D2F1A311-C574-483C-94FC-81B2EA477EA9Q34539833-306B304C-E947-497D-9D4F-6CC3B245C48BQ34596107-FE914E93-8887-4359-BBA9-1BE3895AE479Q34962407-0A9D8592-AD81-41F8-8ACA-629E91E673DBQ35584064-5AD55819-8018-49E5-A81E-562B198857C0Q35665674-4A05E1C7-5826-4EB3-914E-486655D76AB2Q35780214-3FC56EC5-CE68-433D-AA39-6FE38D4126F9Q35848246-6B39BFFF-2C78-44BD-A47D-EB96E44C8FBAQ35920494-C8DBB57A-0281-4A0B-A6B7-806F9A25286DQ35920513-63D17DCC-988C-4A98-88CA-CF26F9DFA396Q35925048-27E22F98-0C11-4E15-8930-579D5676A96AQ36071884-3D963857-50C4-4408-8760-B2D809F2CECBQ36318150-5E8B1DCB-EFEF-45AF-AE00-AF2C600E25B2Q36451030-59670B31-8E12-4EB8-BCCD-E0EF06D70D76Q36496211-986EC9F7-93A8-4E90-B58F-06668727CC2DQ36528159-E3F4BCC3-CBBD-41B2-8A2E-218F827C0BA5Q36688585-5721E5CB-AF49-4149-AF77-283474196D15Q36816444-DD64CFF0-C2FA-483A-9A4E-9766C0A4C777Q36843787-67532627-282C-4584-8F45-A0254D6D868FQ36982110-0F4C684B-8FF2-4C32-A9DB-8B318DE8B725Q37085960-AD73FD8E-8682-428B-98F1-1726557E57FCQ37182261-3EA19577-EFA6-4465-ACF1-B3850212CC8DQ37262522-3197AEC9-4D90-4FB2-8A21-52F261E53C70Q37301799-C076F1A4-78C8-405E-8025-687FEECCE1EAQ37772524-8CB38C27-88D5-4E4F-90DB-3CA4115E944FQ37838362-9BF53645-AC0C-403B-8213-01B3B377D9DE
P2860
Identification of candidate cancer-causing genes in mouse brain tumors by retroviral tagging
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 23 July 2004
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Identification of candidate ca ...... n tumors by retroviral tagging
@en
Identification of candidate ca ...... tumors by retroviral tagging.
@nl
type
label
Identification of candidate ca ...... n tumors by retroviral tagging
@en
Identification of candidate ca ...... tumors by retroviral tagging.
@nl
prefLabel
Identification of candidate ca ...... n tumors by retroviral tagging
@en
Identification of candidate ca ...... tumors by retroviral tagging.
@nl
P2093
P2860
P356
P1476
Identification of candidate ca ...... n tumors by retroviral tagging
@en
P2093
Carl-Fredrik Tiger
Charlotta Eklöf
Fredrik K Johansson
Göran Hesselager
Josefin Brodd
Lene Uhrbom
Maria Ferletta
P2860
P304
11334-11337
P356
10.1073/PNAS.0402716101
P407
P577
2004-07-23T00:00:00Z