Kinetics of the co-operative and non-co-operative reaction of Helix pomatia haemocyanin with oxygen

The kinetics of the reaction of Helix pomatia haemocyanin with oxygen have been studied under conditions where ligand binding is co-operative (n = 4.5). The dissociation of oxygen from oxyhaemocyanin in the presence of sodium dithionite and the combination of deoxyhaemocyanin with oxygen were studied by the stopped-flow technique. The combination with oxygen, as well as the dissociation of oxyhaemocyanin, are clearly autocatalytic. The initial rate constant for oxygen combination to the fully deoxygenated state is 0.2 to 0.3 × 10⁶m^?1 s^?1; during the course of the reaction the rate constant increases to a value higher than 10⁶m^?1s^?1.The initial rate of oxygen dissociation from fully saturated haemocyanin is 10 s^?1, increasing to about 30 s^?1 as the reaction proceeds. Thus, both the combination and the dissociation rate constants contribute to the co-operativity of oxygen binding.Temperature-jump relaxation experiments were carried out at fractional oxygen saturations larger than 0.7. The dependence of the relaxation rate upon the concentration of the reactants indicates the presence of one principal bimolecular process. The calculated combination and dissociation rate constants for this process are: 3.8 × 10⁶m^?1 s^?1 and 10 s^?1, respectively. Evidence is presented which shows that the transition from the T-state to the R-state of the protein is relatively slow. Both the T and R-state seem to be largely stabilized at the expense of intermediate states.Under other conditions, where oxygen binding is non-co-operative, temperature-jump and stopped-flow experiments reveal considerable kinetic heterogeneity.