Tiktopulo E. I., Loseva O. I., Dobritsa A. P., Potekhin S. A.
Institute of Protein Research, 142292, Puschino, Moscow Region, Russia
Heat denaturation of CryIIIa -endotoxin Bacillus thuringiensis subsp. tenebrionis and its fragments at acid pH was studied using differential scanning microcalorimetry. The analysis of the obtained calorimetric data showed that at heating rates from 0.125 to 2 K/min the denaturation of the preparations is inequilibrium. This means that the stability of -endotoxin (the apparent temperature of denaturation Tm) is determined by kinetic parameters rather than by thermodynamic ones.
It was demonstrated that denaturation is a one-stage kinetic process. The enthalpy of the of the conformation of -endotoxin in an activated state and its native process and its activation energy were measured as temperature functions. The data obtained allow us to confirm that there is a slight difference in compactness conformation (hydration extent). The comparison of the thermodynamic data for intact -endotoxin and the 55kDa fragment revealed that the molecule transition to an activated state does not result in any changes in the conformation of three N-terminal -helices. Complete removal of the N terminal domain of -endotoxin and 40 amino acids in -structural domain III brings about an irreversible loss of molecular compactness of the thertiry structure. Thus, during protein self-assembly the nucleation core determining protein stability is probably located in the C-terminal part of the molecule and does not envolve its three initial -helices of the N-terminal domain.
Functional significance of peculiarities of structure arrangement of a -endotoxin molecule are discussed.