Association of Tenebrio molitor L. alpha-amylase with two protein inhibitors--one monomeric, one dimeric--from wheat flour. Differential scanning calorimetric comparison of heat stabilities

Abstract

Thermal stabilization resulting from protein . protein association between two protein inhibitors (coded as 0.19, a dimer, and 0.28, a monomer) from wheat flour and the alpha-amylase from Tenebrio molitor L. (yellow mealworm) larvae was investigated by differential scanning calorimetry (heating rate 10 degrees C/min). Thermograms (plots of heat flow vs. temperature) for the two inhibitors showed broad endothermic peaks with the same extrema (denaturation temperatures) at 93 degrees C, and equal, small enthalpies of denaturation (2 cal/g). The amylase produced a sharp endotherm at 70.5 degrees C, but a larger enthalpy change on denaturation (6 cal/g). The amylase . inhibitor complexes differed in thermal stability, but both showed significant stabilization relative to free enzyme. The complex formed with monomeric inhibitor 0.28 showed a higher denaturation temperature (85.0 degrees C) than that formed with dimeric inhibitor 0.19 (80.5 degrees C). This order of stabilization agrees with the relative affinities of the inhibitors for the amylase. These thermograms are consistent with previous results which indicated that 1 mol of amylase binds 1 mol of inhibitor 0.19.