NMR characterization of a diamagnetic model of unliganded α chains from human hemoglobin

Abstract

This paper reports the reconstitution and spectroscopic characterization of a complex between α globin from human adult hemoglobin and protoporphyrin IX-Zn(II). Optical and proton one-dimensional (1-D) NMR spectra indicate that the prosthetic group binds in a 1:1 stoichiometry to the apoglobin in a single conformation. Using 2-D proton NMR techniques we assigned resonances corresponding to the majority of porphyrin substituents and to several side chains of amino acids in contact with the porphyrin. Analysis of nuclear Overhauser enhancement interactions between identified protons indicated that the complex contains only one rotation isomer of the prosthetic group. The diamagnetic Zn(II) ion is coordinated to the proximal histidine (His87) and does not bind O 2 or CO as a sixth ligand. The ring current effects on protons from the distal valine (Val62) are considerably higher than in the liganded form providing strong evidence for a more compact ligand binding pocket relative to the carbon monoxy state. Therefore, protoporphyrin-Zn(II)/α globin complex is a suitable diamagnetic model for unliganded α chains and will be used for structure determination by NMR and modeling methods.