Kinetics of Binding of Bovine Trypsin‐Kallikrein Inhibitor (Kunitz) in which the Reactive‐Site Peptide Bond Lys‐15‐Ala‐16 is Cleaved, to α‐Chymotrypsin and β‐Trypsin

Equilibrium measurements of the binding of reactive‐site‐cleaved (modified) bovine trypsin‐kallikrein inhibitor (Kunitz) to α‐chymotrypsin and β‐trypsin show a stoichiometric 1:1 association with high binding constants. At least in the case of chymotrypsin much evidence is presented that the reaction with modified inhibitor leads to the same complex as the reaction with virgin inhibitor does. The association rate constant of modified inhibitor with chymotrypsin at pH 7, 22.5° C is 15.8 M −1 s −1 . This is about 2×10 4 times slower than the binding of virgin inhibitor to that enzyme. In the analogous reaction of modified inhibitor with β‐trypsin, however, the association rate constant (1.2 × 10 4 M −1 s −1 at pH 6.9, 22.5° C) is of about the same order of magnitude as it is in the reaction of virgin inhibitor and trypsin. These and analogous phenomena observed in the reactions of virgin and modified soybean trypsin inhibitor (Kunitz) with α‐chymotrypsin and β‐trypsin suggest that the specificity of both inhibitors to trypsin is strongly reflected in the association rate constants of the modified forms. The dissociation rate constants of the complexes of trypsin‐kallikrein inhibitor with chymotrypsin or with trypsin towards the modified inhibitor are estimated to be unmeasurably slow (half‐life times of 45 or 1.5 × 10 4 years, respectively).