The reactivity of the α-amino group of isoleucine-16 of α-chymotrypsin towards nitrous acid at pH 4.0 and 0° is strongly dependent on ionic strength. Third-order deamination rate constants at low ionic strength (μ = 0.1 M) are 500–1000 times higher than those at high ionic strength (μ = 5.0 and 6.0 M) and are independent of the nature of the ions and the chymotrypsin concentration. Extrapolation to zero ionic strength of a plot of the logarithms of the constants against ionic strength leads to a value which is the same as that for the exposed α-amino group of the model compounds isoleucylvaline and valylvaline, and of the N-terminal isoleucine of pepsin. The deamination rate constant of the dipeptide valylvaline varies only two- to three-fold between ionic strength of 0.1 M and 6 M. The results suggest that the concept of a "buried" N-terminal as shown by X-ray analysis (carried out at pH 4.2 and ionic strength 9–11 M) requires modification; at low ionic strength (0.1 M) the reactivity of the N-terminal is only little below that of an exposed amino group, a fact which suggests that the amino group is much more available than shown by the X-ray analysis. The results are interpreted in terms of an effect of the ionic strength on the equilibrium between two conformational states of the enzyme.
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