Salt‐dependent monomer–dimer equilibrium of bovine β‐lactoglobulin at pH 3

Abstract

Abstract Although bovine β‐lactoglobulin assumes a monomeric native structure at pH 3 in the absence of salt, the addition of salts stabilizes the dimer. Thermodynamics of the monomer–dimer equilibrium dependent on the salt concentration were studied by sedimentation equilibrium. The addition of NaCl, KCl, or guanidine hydrochloride below 1 M stabilized the dimer in a similar manner. On the other hand, NaClO 4 was more effective than other salts by about 20‐fold, suggesting that anion binding is responsible for the salt‐induced dimer formation, as observed for acid‐unfolded proteins. The addition of guanidine hydrochloride at 5 M dissociated the dimer into monomers because of the denaturation of protein structure. In the presence of either NaCl or NaClO 4 , the dimerization constant decreased with an increase in temperature, indicating that the enthalpy change (Δ H D ) of dimer formation is negative. The heat effect of the dimer formation was directly measured with an isothermal titration calorimeter by titrating the monomeric β‐lactoglobulin at pH 3.0 with NaClO 4 . The net heat effects after subtraction of the heat of salt dilution, corresponding to Δ H D , were negative, and were consistent with those obtained by the sedimentation equilibrium. From the dependence of dimerization constant on temperature measured by sedimentation equilibrium, we estimated the Δ H D value at 20°C and the heat capacity change (Δ C p ) of dimer formation. In both NaCl and NaClO 4 , the obtained Δ C p value was negative, indicating the dominant role of burial of the hydrophobic surfaces upon dimer formation. The observed Δ C p values were consistent with the calculated value from the X‐ray dimeric structure using a method of accessible surface area. These results indicated that monomer–dimer equilibrium of β‐lactoglobulin at pH 3 is determined by a subtle balance of hydrophobic and electrostatic effects, which are modulated by the addition of salts or by changes in temperature.