Structure of α-lactalbumin and its fluctuation

Abstract

The kinetics of the hydrogen-deuterium exchange reaction in bovine α-lactalbumin have been followed, by infrared absorption measurement, in aqueous solutions at various pH values and at various temperatures. A thermal transition which takes place at about 60 °C has been examined by ultraviolet absorption measurement and circular dichroism measurement. Outlines of the exchange kinetics and the thermal transition are quite similar to those observed for hen egg-white lysozyme, the amino acid sequence of which is known to be very similar to that of α-lactalbumin. Between these two proteins, however, differences have been found in the following respects. (1) The number of slowly exchanging peptide hydrogen atoms (35 in α-lactalbumin compared with 44 in egg-white lysozyme). (2) Kinetic profile of the slow exchange reaction. (3) The midpoint of the thermal transition (54 °C in water and 58 °C in deuterium oxide for α-lactalbumin, compared with 76 °C in both water and deuterium oxide for egg-white lysozyme). (4) The enthalpy and entropy changes in the transition (72 kcal/mol and 220 e.u., respectively, for α-lactalbumin, compared with 127 kcal/mol and 364 e.u. for egg-white lysozyme). (5) The circular dichroic spectrum of the “unfolded” molecule. (6) The effective amount of the unfolded forms estimated from the kinetic measurement at temperatures slightly lower than the transition temperature. (7) The effect of pH on the exchange kinetics. These differences between the proteins are interpreted in terms of the molecular structures and their fluctuations.