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ab15289 has been referenced in 22 publications.

  • Gardiner JD  et al. C/EBPß-1 promotes transformation and chemoresistance in Ewing sarcoma cells. Oncotarget 8:26013-26026 (2017). PubMed: 28148901
  • Schachterle W  et al. Sox17 drives functional engraftment of endothelium converted from non-vascular cells. Nat Commun 8:13963 (2017). PubMed: 28091527
  • Messaoudi K  et al. Critical role of the HDAC6-cortactin axis in human megakaryocyte maturation leading to a proplatelet-formation defect. Nat Commun 8:1786 (2017). PubMed: 29176689
  • Jayabal P  et al. EWS-FLI-1 creates a cell surface microenvironment conducive to IGF signaling by inducing pappalysin-1. Genes Cancer 8:762-770 (2017). PubMed: 29321818
  • Zang C  et al. NF-E2, FLI1 and RUNX1 collaborate at areas of dynamic chromatin to activate transcription in mature mouse megakaryocytes. Sci Rep 6:30255 (2016). CHIPseq ; Mouse . PubMed: 27457419
  • Romano E  et al. Decreased expression of neuropilin-1 as a novel key factor contributing to peripheral microvasculopathy and defective angiogenesis in systemic sclerosis. Ann Rheum Dis 75:1541-9 (2016). PubMed: 26359450
  • Fadul J  et al. EWS/FLI utilizes NKX2-2 to repress mesenchymal features of Ewing sarcoma. Genes Cancer 6:129-43 (2015). WB . PubMed: 26000096
  • Marks-Bluth J  et al. SMAD1 and SMAD5 Expression Is Coordinately Regulated by FLI1 and GATA2 during Endothelial Development. Mol Cell Biol 35:2165-72 (2015). PubMed: 25870111
  • Liu F  et al. Induction of hematopoietic and endothelial cell program orchestrated by ETS transcription factor ER71/ETV2. EMBO Rep 16:654-69 (2015). PubMed: 25802403
  • Elzi DJ  et al. The role of FLI-1-EWS, a fusion gene reciprocal to EWS-FLI-1, in Ewing sarcoma. Genes Cancer 6:452-61 (2015). PubMed: 26807198
  • Elzi DJ  et al. Proteomic Analysis of the EWS-Fli-1 Interactome Reveals the Role of the Lysosome in EWS-Fli-1 Turnover. J Proteome Res 13:3783-91 (2014). WB . PubMed: 24999758
  • Bluteau D  et al. Thrombocytopenia-associated mutations in the ANKRD26 regulatory region induce MAPK hyperactivation. J Clin Invest 124:580-91 (2014). WB, ChIP ; Human . PubMed: 24430186
  • Calero-Nieto FJ  et al. Key regulators control distinct transcriptional programmes in blood progenitor and mast cells. EMBO J 33:1212-26 (2014). CHIPseq ; Mouse . PubMed: 24760698
  • Chaturvedi A  et al. Molecular dissection of the mechanism by which EWS/FLI expression compromises actin cytoskeletal integrity and cell adhesion in Ewing sarcoma. Mol Biol Cell 25:2695-709 (2014). PubMed: 25057021
  • Giraud G  et al. NLS-tagging: an alternative strategy to tag nuclear proteins. Nucleic Acids Res 42:0 (2014). PubMed: 25260593
  • Wiles ET  et al. BCL11B is up-regulated by EWS/FLI and contributes to the transformed phenotype in Ewing sarcoma. PLoS One 8:e59369 (2013). WB ; Human . PubMed: 23527175
  • Hogart A  et al. Genome-wide DNA methylation profiles in hematopoietic stem and progenitor cells reveal overrepresentation of ETS transcription factor binding sites. Genome Res 22:1407-18 (2012). IP . PubMed: 22684279
  • Tijssen MR  et al. Genome-wide analysis of simultaneous GATA1/2, RUNX1, FLI1, and SCL binding in megakaryocytes identifies hematopoietic regulators. Dev Cell 20:597-609 (2011). ChIP . PubMed: 21571218
  • Knezevic K  et al. A Runx1-Smad6 Rheostat Controls Runx1 Activity during Embryonic Hematopoiesis. Mol Cell Biol 31:2817-26 (2011). PubMed: 21576367
  • Wilson NK  et al. Combinatorial Transcriptional Control In Blood Stem/Progenitor Cells: Genome-wide Analysis of Ten Major Transcriptional Regulators. Cell Stem Cell 7:532-44 (2010). ChIP ; Mouse . PubMed: 20887958
  • Juban G  et al. Spi-1 and Fli-1 directly activate common target genes involved in ribosome biogenesis in Friend erythroleukemic cells. Mol Cell Biol 29:2852-64 (2009). WB, ChIP ; Mouse . PubMed: 19289502
  • Bachmaier R  et al. O-GlcNAcylation is involved in the transcriptional activity of EWS-FLI1 in Ewing's sarcoma. Oncogene 28:1280-4 (2009). WB . PubMed: 19151750


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