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Journal Abstract Search

69 related items for PubMed ID: 8547228

  • 1. Transformation of erythroid progenitors by viral and cellular tyrosine kinases.
    Beug H, Schroeder C, Wessely O, Deiner E, Meyer S, Ischenko ID, Hayman MJ.
    Cell Growth Differ; 1995 Aug; 6(8):999-1008. PubMed ID: 8547228
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  • 3. A novel way to induce erythroid progenitor self renewal: cooperation of c-Kit with the erythropoietin receptor.
    Wessely O, Bauer A, Quang CT, Deiner EM, von Lindern M, Mellitzer G, Steinlein P, Ghysdael J, Beug H.
    Biol Chem; 1999 Feb; 380(2):187-202. PubMed ID: 10195426
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  • 4. Primary, self-renewing erythroid progenitors develop through activation of both tyrosine kinase and steroid hormone receptors.
    Steinlein P, Wessely O, Meyer S, Deiner EM, Hayman MJ, Beug H.
    Curr Biol; 1995 Feb 01; 5(2):191-204. PubMed ID: 7538024
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  • 5. Distinct roles of the receptor tyrosine kinases c-ErbB and c-Kit in regulating the balance between erythroid cell proliferation and differentiation.
    Wessely O, Mellitzer G, von Lindern M, Levitzki A, Gazit A, Ischenko I, Hayman MJ, Beug H.
    Cell Growth Differ; 1997 May 01; 8(5):481-93. PubMed ID: 9149900
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  • 6. The glucocorticoid receptor is a key regulator of the decision between self-renewal and differentiation in erythroid progenitors.
    Wessely O, Deiner EM, Beug H, von Lindern M.
    EMBO J; 1997 Jan 15; 16(2):267-80. PubMed ID: 9029148
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  • 7. Mechanism of transformation by v-ErbA: substitution for steroid hormone receptor function in self renewal induction.
    Bauer A, Ulrich E, Andersson M, Beug H, von Lindern M.
    Oncogene; 1997 Aug 07; 15(6):701-15. PubMed ID: 9264411
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  • 8. Physician Education: The Erythropoietin Receptor and Signal Transduction.
    Yoshimura A, Arai K.
    Oncologist; 1996 Aug 07; 1(5):337-339. PubMed ID: 10388012
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  • 9. The thyroid hormone receptor functions as a ligand-operated developmental switch between proliferation and differentiation of erythroid progenitors.
    Bauer A, Mikulits W, Lagger G, Stengl G, Brosch G, Beug H.
    EMBO J; 1998 Aug 03; 17(15):4291-303. PubMed ID: 9687498
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  • 10. Oncogenes and erythroid differentiation.
    Metz T.
    Semin Cancer Biol; 1994 Apr 03; 5(2):125-35. PubMed ID: 8061329
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  • 11. Self-renewal and differentiation of normal avian erythroid progenitor cells: regulatory roles of the TGF alpha/c-ErbB and SCF/c-kit receptors.
    Hayman MJ, Meyer S, Martin F, Steinlein P, Beug H.
    Cell; 1993 Jul 16; 74(1):157-69. PubMed ID: 7687522
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  • 14. Tyrosine kinase expression profiles of chicken erythro-progenitor cells and oncogene-transformed erythroblasts.
    Robinson D, Chen HC, Li D, Yustein JT, He F, Lin WC, Hayman MJ, Kung HJ.
    J Biomed Sci; 1998 Jul 16; 5(2):93-100. PubMed ID: 9662068
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  • 15. The v-ski oncogene cooperates with the v-sea oncogene in erythroid transformation by blocking erythroid differentiation.
    Larsen J, Beug H, Hayman MJ.
    Oncogene; 1992 Oct 16; 7(10):1903-11. PubMed ID: 1408132
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  • 16. Spi-1 and mutant p53 regulate different aspects of the proliferation and differentiation control of primary erythroid progenitors.
    Quang CT, Pironin M, von Lindern M, Beug H, Ghysdael J.
    Oncogene; 1995 Oct 05; 11(7):1229-39. PubMed ID: 7478542
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  • 17. In vitro growth of factor-dependent multipotential hematopoietic cells is induced by the nuclear oncoprotein v-Ski.
    Beug H, Dahl R, Steinlein P, Meyer S, Deiner EM, Hayman MJ.
    Oncogene; 1995 Jul 06; 11(1):59-72. PubMed ID: 7624132
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  • 20. Stromal cell-derived factor-1 alpha and stem cell factor/kit ligand share signaling pathways in hemopoietic progenitors: a potential mechanism for cooperative induction of chemotaxis.
    Dutt P, Wang JF, Groopman JE.
    J Immunol; 1998 Oct 01; 161(7):3652-8. PubMed ID: 9759889
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