Cyanide reactivity of cytochrome c derivatives

Abstract

The kinetic rates and equilibrium association constants for cyanide binding have been measured for a series of cytochrome c derivatives as a probe of heme accessibility. The series included horse and yeast cytochromes iodinated at Tyr 67 and 74, horse cytochrome formylated at Trp 59 in both a low and high redox potential form, the Met 80 sulfoxide derivative of horse cytochrome and the N-acylisourea heme propionate derivative of tuna cytochrome. Native cytochromes c are well known to bind cyanide slowly in a reaction simply first order both in cytochrome and cyanide up to at least 100 mM in cyanide. The derivatives demonstrate markedly different kinetics which indicate the following conclusions. (1) In spite of chemical modification at different loci, all the derivatives have highly similar reactivity, suggesting common ligation structures and mechanisms for reaction. (2) Compared to native cytochromes, reaction rates are 10–20 fold greater. This is in accord with a more accessible heme crevice, but not a completely opened crevice. For the completely opened case, rate increases are expected to be between three and five orders of magnitude. (3) Reaction rates are either independent of cyanide concentration (zero order) or show only slight variation. A mechanism which accounts for the data over four orders of magnitude in concentration postulates a protein conformation step, opening of the heme crevice, as the rate determining step. This conformation change has a limiting rate of 6 · 10 −2 s −1.