Binding thermodynamics to intrinsically disordered protein domains

Abstract

Many proteins are intrinsically disordered or contain one or more disordered domains. These domains can participate in binding interactions with other proteins or small ligands. Binding to intrinsically disordered protein domains requires the folding or structuring of those regions such that they can establish well-defined stoichiometric interactions. Since, in such a situation binding is coupled to folding, the energetics of those two events is reflected in the measured binding thermodynamics. In this protocol, we illustrate the thermodynamic differences between binding coupled to folding and binding independent of folding for the same protein. As an example, we use the HIV-1 envelope glycoprotein gp120 that contains structured as well as disordered domains. In the experiments presented, the binding of gp120 to molecules that bind to disordered regions and trigger structuring (CD4 or MAb 17b) and to molecules that bind to structured regions and do not induce conformational structuring (MAb b12) is discussed.