about
P3373
The Polycomb group protein EZH2 directly controls DNA methylationSUMO modification of the Ets-related transcription factor ERM inhibits its transcriptional activityDnmt3L is a transcriptional repressor that recruits histone deacetylase.Regulation of ploidy and senescence by the AMPK-related kinase NUAK1The M-type receptor PLA2R regulates senescence through the p53 pathwayMyc represses transcription through recruitment of DNA methyltransferase corepressorTranscription factor binding sites in the pol gene intragenic regulatory region of HIV-1 are important for virus infectivityNMR structure of the human Mediator MED25 ACID domainRegulated activating Thr172 phosphorylation of cyclin-dependent kinase 4(CDK4): its relationship with cyclins and CDK "inhibitors"Pea3 transcription factor cooperates with USF-1 in regulation of the murine bax transcription without binding to an Ets-binding sitePEA3 transcription factors are expressed in tissues undergoing branching morphogenesis and promote formation of duct-like structures by mammary epithelial cells in vitroSynergistic activation of HIV-1 expression by deacetylase inhibitors and prostratin: implications for treatment of latent infection.Activation of a helper and not regulatory human CD4+ T cell response by oncolytic H-1 parvovirus.Synergistic activation of human immunodeficiency virus type 1 promoter activity by NF-kappaB and inhibitors of deacetylases: potential perspectives for the development of therapeutic strategies.Prognostic value of ERM gene expression in human primary breast cancers.Expression of the Ets transcription factor Erm is regulated through a conventional PKC signaling pathway in the Molt4 lymphoblastic cell line.Viral oncoproteins target the DNA methyltransferases.The obesity-associated transcription factor ETV5 modulates circulating glucocorticoids.The Ets transcription factors of the PEA3 group: transcriptional regulators in metastasis.TMPRSS2-ERG fusion promotes prostate cancer metastases in bone.Expression, purification, and structural prediction of the Ets transcription factor ERM.Altered expression of the poly(ADP-ribosyl)ation enzymes in uveal melanoma and regulation of PARG gene expression by the transcription factor ERM.Effect of nasopharyngeal carcinoma-derived exosomes on human regulatory T cells.Loss of a negative feedback loop involving pea3 and cyclin d2 is required for pea3-induced migration in transformed mammary epithelial cells.The Mediator complex subunit MED25 is targeted by the N-terminal transactivation domain of the PEA3 group membersEBV Latency II-derived peptides induce a specific CD4+ cytotoxic T-cell activity and not a CD4+ regulatory T-cell response.Autocrine induction of invasive and metastatic phenotypes by the MIF-CXCR4 axis in drug-resistant human colon cancer cells.Reduced tumorigenesis in mouse mammary cancer cells following inhibition of Pea3- or Erm-dependent transcription.Hypoxic-response elements in the oncolytic parvovirus Minute virus of mice do not allow for increased vector production at low oxygen concentration.The cardenolide UNBS1450 is able to deactivate nuclear factor kappaB-mediated cytoprotective effects in human non-small cell lung cancer cells.An assay for parvovirus B19 neutralizing antibodies based on human hepatocarcinoma cell lines.Deacetylase inhibitors and the viral transactivator TaxBLV synergistically activate bovine leukemia virus gene expression via a cAMP-responsive element- and cAMP-responsive element-binding protein-dependent mechanism.Transcriptional regulation of the murine brca2 gene by CREB/ATF transcription factors.Identification and characterization of a PU.1/Spi-B binding site in the bovine leukemia virus long terminal repeat.FEV acts as a transcriptional repressor through its DNA-binding ETS domain and alanine-rich domain.ERM transactivation is up-regulated by the repression of DNA binding after the PKA phosphorylation of a consensus site at the edge of the ETS domain.Epstein-Barr virus infection induces an increase of T regulatory type 1 cells in Hodgkin lymphoma patients.Anti-apoptotic role of caspase-cleaved GAB1 adaptor protein in hepatocyte growth factor/scatter factor-MET receptor protein signaling.Transcriptional regulation of the bovine leukemia virus promoter by the cyclic AMP-response element modulator tau isoform.Upstream stimulatory factors binding to an E box motif in the R region of the bovine leukemia virus long terminal repeat stimulates viral gene expression.
P50
Q24299020-A3F17413-3B62-4554-B508-3D9F74305950Q24300888-26FDBDAB-FDA7-4D4A-8F89-EB8C3F6C2587Q24305526-9FFDE0D2-6EAD-4322-9692-3B2B8C95CA96Q24318723-F6163FB4-4C27-4D79-8B70-8A838D3E0E20Q24336758-E07B0EE0-7337-4B1A-9B3E-31A9563836F0Q24557458-9C52E0AA-8748-4B86-8054-099644080697Q24815940-85F9DE9E-94E6-41AD-9CA1-16154716B927Q27665351-C1148F4A-A56A-40C5-BCBB-C054D3310C34Q28246814-007E52CB-C81B-42E8-A5B1-FF2371FAFEC8Q28512571-69C7804C-A518-43B8-93FB-3B5FEC2F0FBAQ28589944-9906CDFF-C73F-4D79-AFD0-97556658DECBQ33476165-76EF2439-3F20-4C17-B1C7-D19F746E8D8CQ34168613-AB1D9670-A8E7-40DA-9CEA-88003D4C0454Q34349201-5F50067C-A3A7-4B44-B860-6BEA6AB647A1Q34366259-9CBD7F12-721F-4FBA-AF86-BB2B6D923381Q34379969-112058EF-E37A-4ECA-8718-52AE6636E779Q35954845-F9BCE963-75DF-4DEF-904D-E3C9912C677BQ35988624-00062ED5-1A85-4006-813A-1DC0F44AC7B3Q36424871-5E4FCAED-E8EC-47A0-AE3E-6A700118C259Q37706996-4DB9C447-63BD-45FB-A8DE-A8BBC9F02752Q38312847-DA77180F-DF11-45D6-BEBA-B9D501379ED2Q38322387-8B7ADED6-4BAD-4907-BD27-E147E906DE6CQ38928572-E0BABE6A-00C8-43B6-BE3F-C8F86FAAEDC2Q39103051-D8D7EC46-1814-49E4-A068-B949CC527D71Q39175285-D54AC10B-D65C-4DE0-BCE1-FBAE71E2F65FQ39378898-BA4C5139-38DC-49DA-8DF7-A2669EDB7F68Q39705038-F73C0876-18F1-489F-8769-898D4CF666A4Q39934044-13FA2363-D9A9-45D4-8956-FC677BED17B3Q40294367-40384356-48F8-47C3-8D92-F93EE8E8D709Q40310823-11AD5689-7781-486F-B1B3-3F490DB0D4F4Q40524183-516E332B-B859-4D36-8EAB-8651FD27A765Q40551632-53473C18-98C1-4E32-8F34-A750E315439DQ40606511-74543862-0A33-4F4F-871C-17BC14AD4B04Q40644292-D4F99EB5-3747-43B3-8F8E-501799E06F8CQ40645810-F56F4C40-68BB-411F-AC3D-2E4425726B31Q40772038-9E496328-EE04-4FB2-BB35-EC9364F4B951Q42205109-E75A534C-01B4-480C-8D87-22F714220EA6Q42425557-A1B1A34B-C0DC-4BBA-8722-3D27D4CCED88Q42513176-D79A539B-2E3F-4597-8A2E-9261266E29A6Q42514058-A0554FF7-8BF5-44AA-B661-8BC053BCF54C
P50
description
Belgisch wetenschapper
@nl
directeur de l'Institut de biologie de Lille (CNRS/Institut Pasteur/universités de Lille)
@fr
investigador belga
@es
name
Yvan de Launoit
@af
Yvan de Launoit
@an
Yvan de Launoit
@ast
Yvan de Launoit
@bar
Yvan de Launoit
@bm
Yvan de Launoit
@br
Yvan de Launoit
@ca
Yvan de Launoit
@co
Yvan de Launoit
@cs
Yvan de Launoit
@cy
type
label
Yvan de Launoit
@af
Yvan de Launoit
@an
Yvan de Launoit
@ast
Yvan de Launoit
@bar
Yvan de Launoit
@bm
Yvan de Launoit
@br
Yvan de Launoit
@ca
Yvan de Launoit
@co
Yvan de Launoit
@cs
Yvan de Launoit
@cy
prefLabel
Yvan de Launoit
@af
Yvan de Launoit
@an
Yvan de Launoit
@ast
Yvan de Launoit
@bar
Yvan de Launoit
@bm
Yvan de Launoit
@br
Yvan de Launoit
@ca
Yvan de Launoit
@co
Yvan de Launoit
@cs
Yvan de Launoit
@cy
P108
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P269
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P213
0000 0003 5586 9283
P214
P269
P27
P31
P3373
P512
P53
P569
1961-06-06T00:00:00Z
P735
P7859
viaf-172122272