Abstract
Cobalt(II) ovotransferrin bicarbonate and oxalate ternary complexes were prepared and investigated in the pH range 7-10.5. Cobalt(II) provides an excellent and unique spectroscopic probe to monitor subtle structural differences in solution between the two sites of ovotransferrin and to investigate the structural dependence on pH. CD spectroscopy on one side and 1H NMR spectroscopy of isotropically shifted signals on the other are extremely sensitive techniques and are particularly suited for high spin cobalt(II)-containing compounds. In the case of the oxalate derivative the metal-binding ability of the protein is different at the two binding sites and is pH dependent; the CD spectra reveal two different sites, one of which is clearly pH dependent with a pKa of 9.5. On the contrary the bicarbonate analogue does not show any spectral difference between the two sites; both of them change with pH, the pKa being again 9.5. 1H NMR spectra of the oxalate derivatives at pH 7-8 reveal the presence of conformers, the distribution of which depends on the H2O/D2O ratio. Such conformers are not revealed in the bicarbonate system; at pH around 10 the NMR spectra of both systems show inequivalence between the two sites and/or the presence of different conformers for each site. Such differences are discussed in terms of the possible implications in mechanism and function. The overall spectral data are consistent with the donor groups being two histidines, two tyrosines, the synergistic anion, and possibly a solvent molecule.
Highlights
Ternary complexes were prepared and investigated in The primary structure has bereencently determined for both the pH range 7-10.5
Differentconformersin equilibriumforeach sitehas been proposed from E P R spectroscopic studies of iron transferrin [36,37,38], and further evidences are found from EPR on oxovanadium(1V) and copper(I1) derivatives of both Tf and Otf [5, 6, 31, 39, 40]
The systems conthe H20/D20 ratioS. uch conformers arenot revealed tain the chromogenic high spin cobalt(I1) ion which can be in the bicarbonatesystem; at pH around 10 the NMR properly studiedthroughelectronic spectroscopy; the‘H
Summary
If cobalt(I1) is added to an the 1:1derivative is characterized by two negative bands at apo.Otf solution a t p H 10.5 in the presence of 0.1 M bicarbonate, the shape of the spectrum remains substantially the same at 1:l and 2:l ratios This indicates either that thetwo sites are still spectroscopically indistinguishable or that cobalt(I1) bindingis no longer sequential, or both. TheCD spectral features appear bteonoticeably different between the two sites This is clearly indicated by the negative band at 450 nm whose ellipticity increases linearly with cobalt concentration up to a 1:l cobalt to protein ratio, whereas, when a seconedquivalentof cobalt(I1) is added, a slight decrease in the absolute value is observed (Fig. 4 A , inset).
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