Affinity electrophoresis. I. Studies to optimise conditions

Affinity electrophoresis and its applications to studies of immune response

Affinity electrophoresis (AEP) is a useful technique for separation of biomolecules such as plasma proteins, enzymes, nucleic acids, lectins, receptors, and extracellular matrix proteins by specific interactions with their ligands in electric fields and for the determination of dissociation constants for those interactions. Two-dimensional affinity electrophoresis (2-D AEP), which was newly developed by a combination of isoelectric focusing with AEP, has been used for studies on immune response to haptens. Antihapten antibodies, which were induced by immunization of a mouse with the hapten-conjugated bovine serum albumin, were separated by 2-D AEP into a large number of groups of IgG spots with a few microliters of antiserum. Each group of spots showed an identical affinity for the hapten but different isoelectric points as in the case of monoclonal antibodies specific to the hapten. This enabled us to study the diversification and affinity maturation of antihapten antibodies in the course of immunization of a single mouse. Furthermore, effects of a carrier and a hapten array on the production of antihapten antibodies and the cause of charge heterogeneity of monoclonal antibodies were also examined to understand the molecular basis of the immune response in vivo.

Application of affinity electrophoresis to the study of antigen-immunoadsorbent association equilibrium

Affinity electrophoresis is used to study the interaction of complementary biological molecules. Using Scatchard plots, this method gives a partition ratio between immunoadsorbent and soluble antigen or antibody. In the present work, affinity electrophoresis, used to study the interaction between human serum albumin and its insolubilized antibodies, allows a measure of the system's affinity under specific conditions, in particular, the electric field.