Abstract
Enthalpies of inositol hexaphosphate (IHP) binding to deoxy and carbonmonoxy (CO) HbA and HbM Iwate have been determined calorimetrically and compared as functions of pH. Values for deoxy HbA and for deoxy HbM Iwate are similar with CO HbM Iwate yielding slightly less heat of reaction. The results support the existence of both deoxy and CO HbM Iwate in T-like structures with only minor modifications occurring upon CO binding. For HbA observed heats of IHP binding have been corrected for heats of extraction of reacting protons from buffer. The resulting intrinsic IHP binding enthalpies show consistent values of −7 to −11 kcal/mol proton absorbed in binding. We suggest that a major driving force for organic phosphate binding is the exothermic protonation of histidine and/or a α-amino nitrogens induced by proximity of phosphate negative charges.
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