Study of the Dansylation Reaction of Amino Acids, Peptides and Proteins

The reaction rates between dansyl chloride and water, amino acids or peptides are studied as a function of pH and temperature. The rate of hydrolysis of dansyl chloride is constant and low up to pH 9.5 and above this pH it increases rapidly. The various reactive groups of amino acids and peptides react with dansyl chloride in their unprotonated form. It is shown that a compromise for optima conditions of dansylation (pH and temperature) may be found, taking into account the rate of hydrolysis and the pK of the group to be dansylated. A complete chromatographic separation on Silica gel G thin layer plates of dansyl amino acids is proposed using 4 solvents. The quantitative recovery of the separated derivatives is described. The study of the acid hydrolysis of dansylated proteins shows that the release of the dansyl derivatives from the peptide chain is faster than that of free amino acids; it also shows that the destruction of dansyl amino acids occurs rather rapidly. Therefore a hydrolysis time of 4 hours (110°) is suggested, except in the special cases of the release of dansyl valine, dansyl leucine or dansyl isoleucine which needs 18 hours of hydrolysis. For quantitative estimation of each dansyl derivative a correction factor is given, taking into account the loss during hydrolysis, the recovery from the plates and the individual fluorescence of any dansyl derivative as compared to the fluorescence of a reference compound. The general conditions described in this work require 1 nmole of material for qualitative determination of the N‐terminal amino acids, and 5–10 nmoles for their quantitative estimation. Some examples (α‐chymotrypsin, trypsinogen, ribonuclease, lysozyme, aspartokinase and triose phosphate dehydrogenase) illustrate the efficiency of the method.