Fe(III), Cu(II), Co(III), and Mn(III) complexes of ovo- and human serum transferrins show resonance enhanced Raman bands near 1600, 1500, 1270, and 1170 cm-1 upon excitation with laser frequencies which fall within the visible absorption bands of those metalloproteins. Comparison of the visible absorption and resonance Raman spectra of the Cu(II)-transferrin complexes with those for the Cu(II) model compound, bis(2,4,6-trichlorophenolato)diimidazolecopper(II) monohydrate, indicates that the resonance Raman bands are due to enhancement of phenolic vibrational modes. For the model (Cu(II) compound, a normal coordinate analysis was used to aid our assignment of the observed resonance bands at 1562, 1463, 1311, and 1122 cm-1 to A1 vibrational modes of the 2,4,6-trichlorophenolato moiety. These assignments are consistent with those made for Cu(II)-transferrins. The latter assignments were based upon calculated A1 frequencies for p-methylphenol (Cummings, D.L., and Wood, J.L. (1974), J. Mol. Struct. 20, 1). The wavelength shifts in the resonance bands for the model compound from those for Cu(II)-transferrins are due to the influence of the chloro substituents on the planar vibrations of phenol. These results clearly identify tyrosine as a ligand in copper binding to transferrins.
SynopsisRaman spectra from 800 to 1850 cm-I of aqueous solutions of ovalbumin and its more heat-stable form, S-ovalbumin, are presented. A Raman difference spectrum (ovalbumin minus S-ovalbumin) shows differences in intensity in the amide I and I11 regions. These intensity differences lead us to postulate that the conversion of ovalbumin to S-ovalbumin involves a conformation change of a small part (-3-4%) of the protein from a-helix to antiparallel 0-sheet geometry. This small difference in the three-dimensional arrangement of the peptide chain may contribute to the large difference in the thermodynamic stability between ovalbumin and S-ovalbumin.
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