Thermostability of Irreversible Unfolding - Amylases

For most multidomain proteins the thermal unfolding transitions are accompanied by an irreversible step, often related to aggregation at elevated temperatures.As a consequence the analysis of thermostabilities in terms of equilibrium thermodynamics is not applicable, at least not if the irreversible process is fast with respect the structural unfolding transition. In a comparative studywe investigated aggregation effects and unfolding kinetics for five homologous -amylases, all frommesophilic sources but with rather different thermostabilities. The results indicate that for all enzymes the irreversible process is fast and the precedent unfolding transition is the rate-limiting step. In this case the kinetic barrier toward unfolding, as measured by unfolding rates as function of temperature, is the key feature in thermostability. The investigated enzymes exhibit activation energies (Ea) between 208 and 364 kJmol 1 and pronounced differences in the corresponding unfolding rates. The most thermostable -amylase from Bacillus licheniformis (apparent transition temperature, T1/2 100 °C) shows an unfolding rate which is four orders of magnitude smaller as compared with the -amylase from pig pancreas (T1/2 65 °C). Even with respect to two other -amylases from Bacillus species (T1/2 86 °C) the difference in unfolding rates is still two orders of magnitude.