Evaluation of the extent of heterogeneity in the Glycera dibranchiata monomer haemoglobin fraction by the use of n.m.r. and ion-exchange chromatography

Abstract

The coelomic haemoglobin of Glycera dibranchiata is known to be separable into monomeric and higher-Mr fractions. Although exhibiting homogeneity with respect to Mr, the extent of haemoglobin heterogeneity for the monomer fraction has never been adequately assayed. In the present paper we demonstrate that there exists in the monomer haemoglobin fraction reproducibly detectable heterogeneity regardless of the presence or absence of proteinase inhibitors during the isolations. These results show that, considered on the same time scale as previous preparations used for amino acid sequencing, crystallography and kinetics, the monomer haemoglobin fraction is highly heterogeneous. Application of ion-exchange chromatography and ion-filtration methods resulted in the isolation of four resolvable haem protein components from the Glycera monomer haemoglobin fraction. Three of these components were isolated in sufficient quantity to employ proton n.m.r. as a successful analytical tool for discriminating the individual haemoglobins. These results are not surprising. Several previous studies indicated less extensive heterogeneity in the monomer fraction. Moreover, the ability of the Glycera monomer haemoglobin to bind oxygen at even quite low partial pressures has been attributed to functional diversity originating in multiple haemoglobin components. The present work reveals the extent of the haemoglobin heterogeneity. The results show that it is more extensive than previously believed. Examination of this monomer fraction is particularly important, since crystallography indicates that one of the components of the monomer fraction lacks the E-7 (distal) histidine residue. As a consequence, the identification of such extensive heterogeneity is important to many previously published ligand-binding studies.