Affinity analysis for biomolecular interactions based on magneto-optical relaxation measurements

Magneto-optical relaxation measurements of magnetically labelled biomolecules are a promising tool for immunometric analyses. Carcinoembryonic antigen (CEA) and its polyclonal and monoclonal antibodies (anti-CEA) were utilized as a model system for affinity analysis of the interaction between antibody and antigen. For this purpose antibodies were coupled with magnetic nanoparticles (MNPs). Aggregation of these antibody sensors due to interactions with the CEA was observed subsequently by measuring the relaxation time of the birefringence of a transmitted laser beam that occurs in a pulsed magnetic field. A kinetic model of chain-like aggregation developed for these purposes enables the rapid and simple calculation of the kinetic parameters of the underlying protein interaction. From the known antigen concentration and the increase in particle size during the interaction we are able to estimate the unknown parameters with standard methods for the statistical description of stepwise polymerization. This novel affinity analysis was successfully applied for the antigen-antibody interaction described herein and can be applied to other biomolecular interactions. First efforts have been made to establish magneto-optical relaxation measurements in body fluids.

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