Structural and functional effects of selective chemical modifications of Scapharca inaequivalvis haemoglobins in relation to their unique assembly

Abstract

The structural and functional roles of lysyl and thiol groups in the dimeric (HbI) and tetrameric (HbII) haemoglobins from the mollusc Scapharca inaequivalvis have been assessed. In these haemoglobins a unique mode of assembly (the haem-carrying E and F helices form the intersubunit contact of the dimeric unit) is associated with co-operative oxygen binding. Extensive acylation is accompanied by significant haem oxidation. Modification of one or two lysyl residues per chain (corresponding to approximately 20% of the total residues) does not affect the structural and functional properties of both haemoglobins, in line with the proposal that the intersubunit contacts are rich in hydrophobic residues. The modification of the thiol groups does not influence the state of association in both HbI and HbII, despite the location of the cysteine residue common to all polypeptide chains in the vicinity of the major intersubunit contact. The effect on the functional properties depends on the size of the thiol reagent: p-chloromercuribenzoate and phenylmercuric acetate increase the oxygen affinity about 20-fold, but iodoacetamide and mercuric chloride have no effect. Moreover, electrophoresis experiments indicate that p-chloromercuribenzoate is bound in a co-operative fashion, the degree of co-operativity being much higher in the dimeric HbI. Thus, only in HbII are intermediates containing substoichiometric amounts of p-chloromercuribenzoate formed in significant amounts. Their oxygen binding properties show that reaction of only one thiol group/tetramer suffices to alter the oxygen affinity of the molecule.