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Journal Abstract Search

191 related items for PubMed ID: 2469649

  • 1.
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  • 2. Suppression of experimental autoimmune myasthenia gravis by epitope-specific neonatal tolerance to synthetic region alpha 146-162 of acetylcholine receptor.
    Shenoy M, Oshima M, Atassi MZ, Christadoss P.
    Clin Immunol Immunopathol; 1993 Mar; 66(3):230-8. PubMed ID: 7679342
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  • 3. Profile of the regions of acetylcholine receptor alpha chain recognized by T-lymphocytes and by antibodies in EAMG-susceptible and non-susceptible mouse strains after different periods of immunization with the receptor.
    Oshima M, Pachner AR, Atassi MZ.
    Mol Immunol; 1994 Aug; 31(11):833-43. PubMed ID: 7519305
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  • 4. T-helper epitopes on human nicotinic acetylcholine receptor in myasthenia gravis.
    Moiola L, Protti MP, Manfredi AA, Yuen MH, Howard JF, Conti-Tronconi BM.
    Ann N Y Acad Sci; 1993 Jun 21; 681():198-218. PubMed ID: 7689306
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  • 5. The I-Abm12 mutation, which confers resistance to experimental myasthenia gravis, drastically affects the epitope repertoire of murine CD4+ cells sensitized to nicotinic acetylcholine receptor.
    Bellone M, Ostlie N, Lei SJ, Wu XD, Conti-Tronconi BM.
    J Immunol; 1991 Sep 01; 147(5):1484-91. PubMed ID: 1715360
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  • 9. T cell responses in EAMG-susceptible and non-susceptible mouse strains after immunization with overlapping peptides encompassing the extracellular part of Torpedo californica acetylcholine receptor alpha chain. Implication to role in myasthenia gravis of autoimmune T-cell responses against receptor degradation products.
    Oshima M, Yokoi T, Deitiker P, Atassi MZ.
    Autoimmunity; 1998 Sep 01; 27(2):79-90. PubMed ID: 9583739
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  • 11. How subtle differences in MHC class II affect the severity of experimental myasthenia gravis.
    Yang B, McIntosh KR, Drachman DB.
    Clin Immunol Immunopathol; 1998 Jan 01; 86(1):45-58. PubMed ID: 9434796
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  • 13. T helper function of CD4+ cells specific for defined epitopes on the acetylcholine receptor in congenic mouse strains.
    Bellone M, Ostlie N, Lei S, Manfredi AA, Conti-Tronconi BM.
    J Autoimmun; 1992 Feb 01; 5(1):27-46. PubMed ID: 1373061
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  • 15. T-cell reactivity in myasthenia gravis.
    Newsom-Davis J, Harcourt G, Sommer N, Beeson D, Willcox N, Rothbard JB.
    J Autoimmun; 1989 Jun 01; 2 Suppl():101-8. PubMed ID: 2476140
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  • 16. Experimental myasthenia gravis in congenic mice. Sequence mapping and H-2 restriction of T helper epitopes on the alpha subunits of Torpedo californica and murine acetylcholine receptors.
    Bellone M, Ostlie N, Lei S, Conti-Tronconi BM.
    Eur J Immunol; 1991 Oct 01; 21(10):2303-10. PubMed ID: 1680694
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  • 17. Determinant selection in murine experimental autoimmune myasthenia gravis. Effect of the bm12 mutation on T cell recognition of acetylcholine receptor epitopes.
    Infante AJ, Thompson PA, Krolick KA, Wall KA.
    J Immunol; 1991 May 01; 146(9):2977-82. PubMed ID: 1707927
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  • 19. TCR gene usage in experimental autoimmune myasthenia gravis pathogenesis. Usage of multiple TCRBV genes in the H-2b strains.
    Wu B, Shenoy M, Goluszko E, Kaul R, Christadoss P.
    J Immunol; 1995 Apr 01; 154(7):3603-10. PubMed ID: 7897239
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  • 20. Immuno-suppressive peptides for a human T cell clone autoreactive to a unique acetylcholine receptor alpha subunit peptide presented by the disease-susceptible HLA-DQ6 in infant-onset myasthenia gravis.
    Kanai T, Nomura Y, Segawa M, Takagi K, Senju S, Matsushita S, Nishimura Y.
    Hum Immunol; 1997 Apr 01; 56(1-2):28-38. PubMed ID: 9455491
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