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• W2063139274 abstract "Microbiology and ImmunologyVolume 27, Issue 10 p. 823-836 ReviewFree Access The Use of Streptococcal Antigens to Probe the Mechanisms of Immunity Dietmar G. Braun, Dietmar G. Braun Pharmaceuticals Research Department, CIBA-GEIGY Limited, CH-4002 Basel, SwitzerlandSearch for more papers by this author Dietmar G. Braun, Dietmar G. Braun Pharmaceuticals Research Department, CIBA-GEIGY Limited, CH-4002 Basel, SwitzerlandSearch for more papers by this author First published: October 1983 https://doi.org/10.1111/j.1348-0421.1983.tb00647.xCitations: 10AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL REFERENCES 1Bock, K., Josephson, S., and Bundle, D.R. 1982. Lipopolysaccharide solution conformation: antigen shape inferred from high resolution 1H and 13C nuclear magnetic resonance spectroscopy and hard-sphere calculations. J.C.S. Perkin ii: 58– 70. 2Braun, D.G., Huser, H., Knecht, R., and Wright, J.K. 1979. Amino acid sequences of antibody light chain variable regions of predigreed rabbits: κ light chain K49–501 (allotype b4 antistreptococcal group A-variant polysaccharide antibody). Hoppe-Seyler's Z. Physiol. Chem. 360: 663– 677. 3Braun, D.G., Huser, H., and Riesen, W.F. 1976. Rabbit antibody light chains: selective breeding narrows variability in framework and complementarity determing residues. Eur. J. Immunol. 6: 570– 576. 4Braun, D.G., Huser, H., and Riesen, W.F. 1976. Variability patterns of anti-polysaccharide antibodies, p. 31– 51. In A.J. Cunningham (ed), The generation of antibody diversity: a new look, Academic Press Inc., New York. 5Braun, D.G., and Jaton, J.-C. 1975. Homogeneous antibodies: induction and values as probe for the antibody problem. Curr. Top. Microbiol. Immunol. 66: 29– 76. 6Braun, D.G., Kindred, B., and Jacobson, E.B. 1972. Streptococcal Group A carbohydrate antibodies in mice: evidence for strain differences in magnitude and restriction of the response, and for thymus dependence. Eur. J. Immunol. 2: 138– 143. 7Braun, D.G., Quintáns, J., Luzzati, A.L., Lefkovits, I., and Read, S.E. 1976. Antibody response of rabbit blood lymphocytes in vitro. Kinetics, clone size, and clonotype analysis in response to streptococcal group polysaccharide antigens. J. Exp. Med. 143: 360– 371. 8Braun, D.G., Schalch, W., and Schmidt, I. 1980. The restricted antibody response to streptococcal group antigens in animals and man: a complex trait, p. 317– 333. In S.E. Read, and J.B. Zabriskie (eds), Streptococcal diseases and the immune response, Academic Press Inc., New York. 9Braun, D.G., Schalch, W., and Wright, J.K. 1979. Clonal dominance: presentation of antigenic subsites is the determining factor. Lecture Notes in Biomathematics 32: 13– 27, Springer Verlag Heidelberg. 10Briles, D.E., Krause, R.M., and Davie, J.M. 1977. Immune response deficiency of BSVS mice. I. Identification of Ir gene differences between A/J and BSVS mice in the antistreptococcal group A carbohydrate response. Immunogenetics 4: 381– 392. 11Cohn, M. 1974. A rationale for ordering the data on antibody diversification. Progr. Immunol. II 2: 261– 284. 12Coligan, J.E., Kindt, T.J., and Krause, R.R. 1978. Structure of the streptococcal groups A, A-variant, and C carbohydrates. Immunochemistry 15: 755– 760. 13Cramer, M., and Braun, D.G. 1974. Genetics of restricted antibodies to streptococcal group polysaccharides in mice. I. Strain differences of isoelectric focusing spectra of group A hyperimmune sera. J. Exp. Med. 139: 1513– 1528. 14Cramer, M., and Braun, D.G. 1975. Genetics of restricted antibodies to streptococcal group polysaccharides in mice. II. Ir-A-CHO gene determines antibody levels, and regulatory genes influence the restriction of the response. Eur. J. Immunol. 5: 823– 830. 15Eichmann, K. 1975. Genetic control of antibody specificity in the mouse. Immunogenetics 2: 491– 506. 16Eichmann, K. 1978. Expression and function of idiotypes on lymphocytes. Adv. Immunol. 26: 195– 254. 17Eichmann, K., and Kindt, T.J. 1971. The inheritance of individual antigenic specificities of rabbit antibodies to streptococcal carbohydrates. J. Exp. Med. 134: 532– 552. 18Gasser, D.L., and Silvers, W.K., 1974. Genetic determinants of immunological responsiveness. Adv. Immunol. 18: 1– 66. 19Geckeler, W., Blomberg, B., De Preval, C., and Cohn, M. 1976. On the genetic disection of a specific humoral immune response to α1,3-dextran. Cold Spring Harbor Symp. Quant. Biol. 41: 743– 748. 20Herbst, H., Chang, J.Y., Abersold, R., and Braun, D.G. 1982. Murine Vκ25 isotype sequence: monoclonal antibody 2S1.3 specific for the Group A streptococcal polysaccharide. Hoppe-Seyler's Z. Physiol. Chem. 363: 1067– 1076. 21Herbst, H., Lavanchy, D., and Braun, D.G. 1983. Grouping of hemolytic streptococci by monoclonal antibodies. Determinant specificity, cross-reactivity and affinity. Ann. Inst. Pasteur, submitted. 22Huser, H., and Braun, D.G. 1981. Antibody diversity: multiple basic recombination units in the germ line—the sure foundation for survival? Vol. 2, p. 134– 140. In C.U. Steinberg, and T. Lefkovits (eds), The immune system, Karger, Basel. 23Joho, R., Gershenfeld, H., and Weissman, I.L. Evolution of a multigene family of Vκ germ line genes. EMBO J., submitted. 24Kabat, E.A., Wu, T.T., Bilofsky, H., Reid-Miller, M., and Perry, H. 1983. Sequences of proteins of immunological interest. U.S. Department of Health and Human Services. National Institutes of Health. 25Köhler, G., and Milstein, C. 1975. Continuous cultures of fused cells secreting antibody of predefined specificity. Nature 256: 495– 497. 26Krause, R.M. 1963. Symposium on relationship of structure of microorganisms to their immunological properties. IV. Antigenic and biochemical composition of hemolytic streptococcal cell walls. Bacteriol. Rev. 27: 369– 380. 27Krause, R.M. 1970. The search for antibodies with molecular uniformity. Adv. Immunol. 12: 1– 56. 28Krause, R.M., and Coligan, J.E. 1979. Antibodies to streptococcal carbohydrate: substitutes for the myeloma proteins. Rev. Infect. Dis. 1: 904– 911. 29Krause, R.M., and Kindt, T.J. 1977. Antibodies with molecular uniformity, p. 285– 328. In F.W. Putnam (ed), The plasma proteins, Vol. 3, Academic Press Inc., New York. 30Krause, R.M., and McCarty, M. 1961. Studies on the chemical structure of streptococcal cell walls. I. The identification of a mucopeptide in the cell walls of A- and A-variant streptococci. J. Exp. Med. 114: 127– 140. 31McCarty, M. 1969–1970. The streptococcal cell wall. Harvey Lect. 65: 73– 96. 32 F. Melchers, M. Potter, N. Warner, (eds) 1978. Lymphocyte hybridomas. Springer-Verlag, Berlin, Heidelberg, New York. 33Mouse News Letters, 1979. 61: 16. 34Nahm, M.H., Clevinger, B.L., and Davie, J.M. 1982. Monoclonal antibodies to streptococcal group carbohydrate. I. A dominant idiotypic determinant is located on Vκ1. J. Immunol. 129: 1513– 1518. 35Osterland, C.K., Miller, E.J., Karakawa, W.W., and Krause, R.M. 1966. Characteristics of streptococcal group-specific antibody isolated from hyperimmune rabbits. J. Exp. Med. 123: 599– 614. 36Perlmutter, R.M., Briles, D.E., Greve, J.M., and Davie, J.M. 1978. Light chain diversity of murine antistreptococcal antibodies: IgCH-linked effects on L chain expression. J. Immunol. 121: 149– 158. 37Putnam, F.W. 1977. Immunoglobulins. 1. Structure, p. 1– 143, In F.W. Putnam (ed), Theplasma proteins, Vol. 3, Academic Press Inc., New York. 38Sacks, D.L., Kelsoe, G.H., and Sachs, D.H. 1983. Induction of immune responses with antiidiotypic antibodies: implications for the induction of protective immunity. Rev. Springer Seminars in Immunopathol. 6: 79– 97. 39Schalch, W., Wright, J.K., Rodkey, L.S., and Braun, D.G. 1979. Distinct functions of monoclonal IgG antibodies depend on antigen site specificities. J. Exp. Med. 149: 923– 937. 40Scher, I., Ahmed, A., Strong, D.M., Steinberg, A.D., and Paul, W.E. 1975. X-linked B lymphocyte immune defect in CBA/HN mice. I. Studies of the function and composition of spleen cells. J. Exp. Med. 141: 788– 803. 41Stankus, R.P., and Leslie, G.A. 1975. Genetic influences on the immune response of rats to streptococcal group A carbohydrates. Immunogenetics 2: 29– 38. 42Tonegawa, S. 1983. Somatic generation of antibody diversity. Nature 302: 575– 581. 43Yarmush, M.L., Sogn, J.A., Mudget, M., and Kindt, T.J. 1977. The inheritance of antibody V regions in the rabbit: linkage of an H-chain-specific idiotype to immunoglobulin allotypes. J. Exp. Med. 145: 916– 930. Citing Literature Volume27, Issue10October 1983Pages 823-836 ReferencesRelatedInformation" @default.
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