NH2-terminal spin labeling of human hemoglobin--spin states and temperature dependence.

In order to explore fully how ligand- and temperature-induced alterations in the spin states of heme iron are related to protein readjustments, the spin label 4-isothiocyanate (I) was covalently attached at beta-93 cysteines and at NH2-terminal valines of various heme-iron ligand forms of human hemoglobin. It was found that the mobility of NH2-terminally bound spin labels depends on the magnetic moment of the heme iron. There is a an approximately linear relationship between the magnetic moment of the heme iron and the mobility of NH2-terminally bound spin labels. In accordance with our previous results, the temperature dependence of ESR spectra of spin-labeled hemoglobin suggests the temperature-induced protein conformational change in those heme-iron ligand forms that are characterized by the equilibrium of the spin states of the heme iron. The conformational change was sensed at both spin-label-binding sites: at beta-93 cysteines and at NH2-terminal valines.