Biomolecular interactions facilitate the biochemical processes that sustain life. Proteins, RNAs, and ribonucleoprotein complexes perform cellular functions that range from catalyzing the formation or cleavage of bonds to being structural building blocks, both of which are only possible through the interaction with their respective biomolecular partner(s). Having access to the parameters that describe these interactions is important for our understanding of the principles that underlie enzymatic and nonenzymatic processes. Here we describe two fluorescence-based approaches to determine two key parameters, the affinity and the rate of association/dissociation of a protein and a ligand. Considerations are provided to expand the described approach to other experimental systems.
Keywords: Affinity; Equilibrium binding; FRET; Fluorescence; GTPase; Nucleotide; Pre-steady state; Stopped-flow.