Mathematical model for determining the binding constants between immunoglobulins, bivalent ligands, and monovalent ligands
2011
Mack, Eric T | Cummings, Linda | Perez-Castillejos, Raquel
This paper analyzes the equilibria between immunoglobulins (R ₂), homo-bifunctional ligands (L ₂), monovalent ligands (I), and their complexes. We present a mathematical model that can be used to estimate the concentration of each species present in a mixture of R ₂, L ₂, and I, given the initial conditions defining the total concentration of R ₂, L ₂, I, and four dissociation constants ( [graphic removed] , [graphic removed] , [graphic removed] , and α). This model is based on fewer assumptions than previous models and can be used to describe exactly a broad range of experimental conditions. A series of curves illustrates the dependence of the equilibria upon the total concentrations of receptors and ligands, and the dissociation constants. We provide a set of guidelines for the design and analysis of experiments with a focus on estimating the binding constants from experimental binding isotherms. Two analytical equations relate the conditions for maximum aggregation in this system to the binding constants. This model is a tool to quantify the binding of immunoglobulins to antigens and a guide to understanding and predicting the experimental data of assays and techniques that employ immunoglobulins. [graphic removed]
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