The binding of carbon monoxide and weak or strong field ligands to deuteroheme has been studied over the widest possible ranges of carbon monoxide and ligand concentrations. The variations of the affinity constants of the monoliganded hemes for carbon monoxide (and of monocarbonylheme for a sixth ligand) have been related to the relative a-donor-rr-acceptor character of the ligands. With respect to the embedded heme group of the 02-carrying hemoproteins, monoimidazoleheme appears in the most favorable situation to bind carbon monoxide. Comparison with T h e hydrophobic environment of the heme group in hemoproteins has led us and others (see, for instance, Caughey et al., 1965;Kassner, 1972Kassner, , 1973 to think that a nonaqueous solution may be a more suitable medium for iron-porphyrin studies. We have previously discussed the preparation of bare, i.e. free of axial ligands, deuteroheme in benzene, and its coordination by weak or strong field ligands (Brault and Rougee, 1974a-c) and by carbon monoxide (Rougee and Brault, 1973). W e present here a more complete study of the coordinating properties of deuteroheme in the presence of both a weak or strong field ligand (L) and carbon monoxide. The purpose of this study is to determine to what extent the fixation of a given ligand (or C O ) alters the reactivity of heme toward CO (or a ligand). Our results give information on the unusual behavior of CO among other ligands and the very high affinity of five-coordinate hemoproteins such as myoglobin and hemoglobin toward CO. We conclude that hemoproteins which bind CO with the maximum affinity hitherto reported (3-5 X IO8 M -' ) are as relaxed, according to the concept of Perutz et al. ( I974a,b), as free, unconstrained monoimidazoleheme in solution.
Experimental SectionSolvents and chemicals were of the purest available grade. Chlorodeuterohemin dimethyl ester was synthesized according to routine procedure. The reduced form will be hereafter called heme.Argon, grade U, was purchased from Air-Liquide, and pure carbon monoxide (CO) was from Matheson. Diluted CO in nitrogen, grade U (respectively, 1.08 X 0.98 X lo-', and 1.01 X in volume), was specially supplied by Air-Liquide.Ultraviolet (uv), visible, and near-infrared (ir) (up to 3000 nm) spectra were recorded using a Beckman DKU
