#A Antibody Combining Sites, Especially Structure.- #A1 Antibody combining sites past, present and future.- #A2 Variability, modelling and prediction of ?-hairpins with reference to the immunoglobulin fold.- #A3 Probing the binding sites in crystals of immunoglobulins.- #A4 Comparative structures of mouse antibody combining sites.- #NC(A) NOTE and COMMENTS related to the foregoing topics*.- #NC(A)1 An approach to the study of anti-protein antibody combining sites.- #B Production and Characterization of Antibodies, in Contexts such as Receptor Investigation.- #B1 Investigating the specificity of monoclonal antibodies to protein antigens using ?-galactosidase fusion proteins.- #B2 Antibody-screening cDNA libraries.- #B3 Anti-receptor antibodies by the auto-anti-idiotypic route.- #B4 Production and characterization of anti-morphine anti-idiotypic antibodies.- #B5 Anti-idiotype antibodies for the study of membrane receptors: the double monoclonal antibody approach.- #NC(B) NOTES and COMMENTS related to the foregoing topics.- #NC(B)1 Characterization of idiotypes and VH genes of various members of A48-idiotypic network pathway.- #NC(B)2 Monoclonal internal image anti-idiotypic antibodies of hepatitis B surface antigen.- #NC(B)3 Structure and expression of genes encoding IgA heavy chains.- #NC(B)4 Human:mouse antibody-producing transfectoma cell lines.- #NC(B)5 Different ways to modify monoclonal antibodies.- #NC(B)6 Restructuring enzymes and antibodies.- #NC(B)7 Dideoxy mRNA sequencing as a method to analyze antibody diversity.- #NC(B)8 Effect of multivalent binding on dissociation of monoclonal antibodies from cell surface antigens.- #C Cytoskeletal, Myocyte and Neuronal Studies with Antibodies.- #C1 Immunological approaches and techniques employed in tubulin and microtubule research.- #C2 Cell-surface events during myogenesis: immunofluorescence analysis using monoclonal antibodies.- #C3 Differential expression of cell-surface antigens on muscle l[