Infrared spectroscopic studies of calcium binding to inhibited beta-trypsins.

Fourier transform infrared spectroscopy was used to examine the effect of calcium binding on the secondary structure of two inhibited bovine beta-trypsins. Neither the diisopropyl fluorophosphate- nor benzamidine-inhibited forms showed detectable secondary structure perturbation upon calcium binding at pD 6.9 and 5.0, respectively. Considered in light of the recent assignment of an amide I' band to the autolysis loop of bovine beta-trypsin, these results contradict the generally held hypothesis that calcium slows trypsin autolysis by induction of a conformational change at this site and support the recent contention that the mechanism of action has a specific electrostatic origin. In addition, the appearance of a band at 1699 cm-1 in the benzamidine-inhibited form can be interpreted as resulting from the NC-N stretching vibrations of the amidinium moiety, which the observed crystal structure indicates is hydrogen-bonded to the carboxyl group of active-site Asp-189.