Quantitative determination of tryptophanyl and tyrosyl residues of proteins by second-derivative fluorescence spectroscopy

Abstract

Second-derivative spectroscopy has been applied to the study of the fluorescence of aromatic amino acids. The spectral features of the second derivative emission spectra of free aromatic amino acids and proteins are described, the emission of each aromatic fluorophore being characterized by a particular minimum-maximum pair. An easy, accurate, and rapid method is proposed for the quantitative determination of tyrosine and tryptophan, based on the addition of small amounts of a standard solution to the samples followed by the measurement of the increase in the distance between a selected minimum and an adjacent maximum, in the second-derivative spectrum. For tyrosine determination, excitation wavelength was 275 nm, and the selected minimum-maximum (m,M) pair was (300; 330 nm), while an excitation of 300 nm and a minimum-maximum pair (357; 377 nm) were employed for the tryptophan determination. This method enables the tryptophan content of proteins to be determined directly, without the need for correction for the presence of tyrosine. The tyrosine content of proteins can also be determined at neutral pH, in the presence of both tryptophan and phenylalanine. The proposed method has also been applied to trypsin activation of frog epidermis tyrosinase.