Affinity-based reversed micellar protein extraction: I. Principles and protein-ligand systems

Abstract

Affinity cosurfactants, consisting of hydrophilic ligands derivatized with hydrophobic tails, increase the efficiency of selective protein recoveries using reversed micelles by extending the operating range of pH and salt concentration over which an extraction can be performed. Three different affinity cosurfactant–protein pairs have been used to demonstrate the principles of this extractive technique: (i) concanavalin A, a lectin, was extracted with the addition of octyl glucoside; (ii) natural amphiphiles, such as lecithin, were used to extract myelin basic protein, a membrane-associated protein known to recognize and bind the phosphatidylcholine headgroup; and (iii) alkyl boronic acids were used to extract chymotrypsin. The enhancement in protein transfer correlated with the binding strength of the free ligand and protein in aqueous solution. Several control studies confirmed the biospecificity of the interactions of protein and affinity cosurfactant. © 1993 John Wiley & Sons, Inc.