1. The effect of evolution on homologous proteins: a comparison between the chromophore microenvironments of Italian water buffalo (Bos bubalus, L.) and sperm whale apomyoglobin.
- Author
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Colonna G, Irace G, Parlato G, Aloj SM, and Balestrieri C
- Subjects
- Animals, Chemical Phenomena, Chemistry, Circular Dichroism, Guanidines, Hydrogen-Ion Concentration, Protein Conformation, Spectrometry, Fluorescence, Apoproteins, Biological Evolution, Buffaloes metabolism, Cetacea metabolism, Myoglobin, Whales metabolism
- Abstract
The perturbing effect of guanidium hydrochloride and pH on the molecular structure of water buffalo apomyoglobin has been investigated by circular dichroism in the far and near ultraviolet and by fluorescence. In the wavelength region between 320 and 260 nm the circular dichroic spectrum of the globin is highly structured and the contributions of the aromatic chromophores have been resolved. Buffalo apomyoglobin undergoes a structural transition at neutral pH which involves elements of the secondary and tertiary structure, as indicated by changes of dichroic activity of the peptide and aromatic chromophores and the fluorescence of the two tryptophanyl residues. The possibility of charge-transfer complex between indole and imidazole is discussed. A major structural transition with abrupt unfolding takes place in the pH region between 5.6 and 4.3. Below pH 4.3 the peptide helical residues, which survive the acid transition, appear to be resistent to further acidification to pH 2.0 while tryptophanyl emission is quenched and shifted to longer wavelengths. A structural transition occurs also in alkali above pH 10, which has been detected by the same techniques. The relationships between buffalo and sperm whale apomyoglobin are discussed.
- Published
- 1978