Effect of reduction and alkylation of rabbit immuno globulin g antibody on its ability to activate the classical complement pathway
Johnson, B.A.; Hoffmann, L.G.
Molecular Immunology 19(11): 1376
1982
ISSN/ISBN: 0161-5890 Accession: 028184777
PDF emailed within 1 workday: $29.90
Related References
Johnson, B.A.; Hoffmann, L.G. 1984: Effect of reduction and alkylation on structure and function of rabbit immuno globulin g antibody 2. effects on classical pathway complement c 3 convertase formation Molecular Immunology 21(1): 77-88Johnson, B.A.; Hoffmann, L.G. 1981: Effect of reduction and alkylation on structure and function of rabbit IgG antibody-I. Effect on ability to activate complement depends on conditions of reduction Molecular Immunology 18(3): 181-188
Johnson, B.A.; Hoffmann, L.G. 1980: Effect of reduction and alkylation on structure and function of rabbit immuno globulin g antibody Federation Proceedings 39(3): Abstract 1130
Williams, B.D.; Slaney, J.M.; Price, J.F.; Challacombe, S.J. 1976: Classical pathway activation of complement system by immuno globulin a anti complement c 3 antibody Nature (London) 259(5538): 52-53
Johnson, B.A.; Hoffmann, L.G. 1984: Effect of reduction and alkylation on structure and function of rabbit IgG antibody--II. Effects on classical pathway C3 convertase formation Molecular Immunology 21(1): 77-87
Reid, K.B.M.; Gadd, K.J. 1981: Importance of the integrity of the inter heavy chain di sulfide bond of rabbit immuno globulin g in the activation of the alternative pathway of human complement by the f a b 2 region of immuno globulin g antibody in immune aggregates Hoppe-Seyler's Zeitschrift fuer Physiologische Chemie 362(1): 30
Humphrey, J.H. 1969: Spontaneous re aggregation of immuno globulin m subunits and restoration of antibody activity after reduction and alkylation of rabbit anti forssman antibody Immunology: 237-247
Circolo, A.; Borsos, T. 1984: Lack of binding of complement c 3 to immuno globulin g antibodies during the activation of the classical complement pathway on the red cell Molecular Immunology 21(3): 191-196
Beale, D.; Kent, C.M. 1978: The effect of limited fragmentation of porcine 19s immuno globulin m on agglutination and complement fixation evidence that at least 2 intact subunits are required for complement fixation by immuno globulin m antibody antigen complexes Biochimica et Biophysica Acta 533(1): 23-33
Strober, W. 1970: Rabbit immuno globulin a immuno globulin m and immuno globulin g anti hapten responses assayed by activated 1st component of complement cla fixation and transfer Journal Of Immunology: 687-697
Galazka, A.; Sporzynska, Z.; Aleksandrowicz, J.; Mierzejewska, H. 1971: The influence of various adjuvants on the immuno globulin m and immuno globulin g diphtheria antibodies formation in rabbits immunized with diphtheria toxoid part 2 the sequence of immuno globulin m and immuno globulin g antibody occurrence in serum and the sensitivity of various methods for testing diphtheria antibody activity in immuno globulin m and immuno globulin g Zeitschrift fuer Immunitaetsforschung Experimentelle und Klinische Immunologie 142(4): 357-371
Reynolds B.L. 1984: The ability of immuno globulin a to inhibit complement consumption by complement fixing antigens and antigen antibody complexes Australian Journal of Experimental Biology and Medical Science 62(1): 1-10
Spear, G.T.; Lint, T.F.; Landay, A.L. 1989: Hiv infected cell lines activate the classical complement pathway by both antibody dependent and antibody independent mechanisms Complement and Inflammation 6(5): 402
Jokiranta, T.S.; Meri, S. 1993: Biotinylation of monoclonal antibodies prevents their ability to activate the classical pathway of complement Journal of Immunology 151(4): 2124-2131
Burritt, M.F.; Calvanico, N.J.; Tomasi, T.B.Jr 1977: Complement activation via the classical pathway by fc fragments of human immuno globulin a Federation Proceedings 36(3): 1208