Nuclear magnetic resonance and ultraviolet difference spectral studies of the binding properties of turkey egg white lysozyme: Consequences of the replacement of ASP 101 by glycine

Abstract

The nuclear magnetic resonance spectrum of the 19F nuclei in N-trifluoroacetylated chitotriose was studied in the presence of turkey lysozyme. In contrast to results previously obtained with hen lysozyme, the 19F nmr spectrum of the complex did not show any striking pH dependence. It was, in fact, very similar at all pH's to the spectrum of the trisaccharide complexed with hen lysozyme at low pH, where Asp 101 is protonated. The replacement of Asp 101 in turkey lysozyme by a glycine is thought to account for this difference and the results allow unequivocal assignment of a value of 4.2 to the pK a of Asp 101 in hen lysozyme. The dissociation constant of the chitotriose-turkey lysozyme complex was measured at various pH's using uv difference methods and compared with that previously reported for the hen lysozyme-chitotriose complex. Again, the results could be attributed to the loss in binding energy due to the absence of Asp 101. In contrast to chitotriose, the binding of chitobiose and methyl-2-acetamido-2-deoxy-β- d-glucopyranoside as studied by both uv difference and nmr methods is the same within experimental error for turkey and hen lysozyme. The results obtained for binding of chitobiose suggest that Asp 101 does not contribute as much to the binding energy of the disaccharide as was previously thought. Finally, the specific activities of both of these lysozymes against Micrococcus lysodeikticus were found to be identical.