Kinetics of ligand binding to ferrous heme groups of hemoglobin M_Saskatoon

Hemoglobin M_Saskatoon (α₂^A β₂^63tyr) has two α chains in the normal ferrous state, while its two β chains are in the ferric state. The reaction of hemoglobin M_Saskatoon with carbon monoxide at pH 7 and 20 °C in the presence and absence of dithionite was studied. In the absence of dithionite only the α chains react and the combination rate is slow and similar to that of normal deoxyhemoglobin. After the addition of dithionite the rate of reaction is greatly increased initially and then decreases to a rate similar to that seen in the absence of dithionite. The dissociation of oxygen from hemoglobin M_Saskatoon at pH 7 and 20 °C was found for the α subunits to be similar to that seen for normal oxyhemoglobin. This similarity in the kinetic properties of normal hemoglobin and the α subunits of hemoglobin M_Saskatoon in both ligand combination and dissociation reactions indicates that the α subunits of hemoglobin M_Saskatoon undergo a structural transition from a low to high affinity form on liganding. Since the β subunits react rapidly with carbon monoxide even when the α subunits are unliganded, it appears that the ligand binding sites of the β chains are uncoupled from the state of liganding of the α subunits.