Oxidation-reduction reactions of hemoglobin A, hemoglobin M Iwate, and hemoglobin M Hyde Park.

The kinetics and equilibrium of the redox reactions of hemoglobin A, hemoglobin M Iwate, and hemoglobin M Hyde Park using the iron (II) and iron (III) complexes of trans-1,2-diaminocyclohexane-N,N,N',N'-tetraacetate (CDTA4-) as the reducing and oxidizing agents have been studied. With respect to the equilibrium it was found that hemoglobin M Iwate (where the beta chains were reduced) was more readily reduced than hemoglobin M Hyde Park (where the alpha chains are reduced). This difference was shown to be a result of a difference in the rate constant for reduction but not oxidation. The observed rate contants for the reduction of all three hemoglobins were shown to decrease with increasing pH. This was attributed to a decrease in the [T]/[R] ratio. The observed rate contants for the oxidation reaction were shown to increase with increasing pH. Accompanying this increase was a change in the kinetic profile for hemoglobin A from pseudo first order to one in which the rate increased as the extent of reaction increased. Inositol hexaphosphate had no effect on the rate of oxidation of deoxyhemoglobin A. This was a result of binding of FeCDTA2- or HCDTA3- to the protein. However, in the presence of inositol hexaphosphate, the reduction of methemoglobin A exhibited biphasic kinetics. This result was interpreted in terms of the production of a small amount of a conformation which was more readily reduced.