Trans effects on cysteine ligation in the proximal His93Cys variant of horse heart myoglobin.

Abstract

Three variants of horse heart myoglobin (Mb) in which the proximal His93 residue has been replaced with a Cys residue have been constructed and studied by NMR, EPR, and MCD spectroscopy to evaluate the contributions of proximal and distal residues to the coordination environment of the heme iron in these proteins. Although no experimental conditions were identified that allowed quantitative ligation of the cysteine residue to the heme iron in the His93Cys variant, all of the spectroscopic evidence collected for the His93Cys/His64Ile and His93Cys/His64Val double variants supports the assignment of thiolate as the ligand to iron in the oxidized forms of these variants. The double metMb variants exhibit Soret maxima that are considerably blue-shifted, 1H NMR spectra with decreased mean methyl resonances, and EPR spectra with highly rhombic g values. These spectroscopic data for the Fe(III) variants resemble the corresponding properties reported for ferricytochrome P-450. The decrease in the reduction potential of the double variants by 280 mV relative to wild-type protein is also consistent with the low midpoint potential of cytochrome P-450. MCD spectroscopy of these variants confirms that the proximal cysteine residue is not bound in the reduced forms of these proteins and, in the case of the His93Cys variant, that the distal histidine is coordinated to the iron. Similar coordination environments were created in the ferrimyoglobin variants by cyanogen bromide modification, which resulted in cyanation of the sulfur atom and prevented the ligation of Cys93 to the heme iron.(ABSTRACT TRUNCATED AT 250 WORDS)