Computer simulation and experimental validation of the electrophoretic behavior of proteins

Abstract

A mathematical model of the electrophoretic behavior of proteins is presented. The Debye-Hueckel-Henry theory is used for the description of protein mobility, which has the important result of making net mobility, which has the important result of making net mobility a function of ionic strength. A net charge vs pH relationship and a diffusion coefficient are required to describe a specific protein. The model is employed for the computer simulation of three distinct electrophoretic modes: isoelectric focusing, isotachophoresis, and zone electrophoresis. The validity of the model is tested by comparing simulation with experimental data. Excellent qualitative agreement was found.