Kinetics of the co-operative reaction of Helix pomatia hemocyanin with oxygen. Oxygen binding at low and intermediate oxygen saturations

The kinetics of oxygen binding of Helix pomatia α-hemocyanin has been studied at low and intermediate levels of ligand saturation, under conditions in which oxygen binding is highly co-operative. Temperature-jump relaxation spectra are heterogeneous and can be resolved into a slow and a fast phase. The latter is related to a bimolecular reaction, i.e. the binding of oxygen. At very low degrees of fractional saturation (<0.15) the reactant concentration-dependence of the faster relaxation rate allows the combination and dissociation rate constants of the low affinity or T-state to be estimated as 1.3 × 10⁶m^?1 s^?1 and 300 s^?1, respectively. A possible interpretation of the slow component in the relaxation spectrum is discussed.In stopped-flow experiments, after mixing deoxyhemocyanin with oxygen-containing buffer, most of the binding process to the T-state is lost in the dead time. The observed initial rates of oxygen binding are between 15 and 120 s^?1. depending on the oxygen concentration, and may reflect the rate of the allosteric change from a low to a high affinity state (T→R transition), which is slower than oxygen binding.Similarities and differences in the overall kinetic properties of small and giant respiratory proteins, i.e. hemoglobin and hemocyanin, are discussed.