Structural equilibrium fluctuations in mesophilic and thermophilic alpha-amylase.

By comparing a mesophilic alpha-amylase with its thermophilic homolog, we investigated the relationship between thermal stability and internal equilibrium fluctuations. Fourier transform infrared spectroscopy monitoring hydrogen/deuterium (H/D) exchange kinetics and incoherent neutron scattering measuring picosecond dynamics were used to study dynamic features of the folded state at room temperature. Fairly similar rates of slowly exchanging amide protons indicate about the same free energy of stabilization DeltaG(stab) for both enzymes at room temperature. With respect to motions on shorter time scales, the thermophilic enzyme is characterized by an unexpected higher structural flexibility as compared to the mesophilic counterpart. In particular, the picosecond dynamics revealed a higher degree of conformational freedom for the thermophilic alpha-amylase. The mechanism proposed for increasing thermal stability in the present case is characterized by entropic stabilization and by flattening of the curvature of DeltaG(stab) as a function of temperature.