QUANTITATIVE-ANALYSIS OF FLUORINATED ETHYLCHLOROFORMATE DERIVATIVES OF NONPROTEIN AMINO-ACIDS USING POSITIVE AND NEGATIVE CHEMICAL-IONIZATION GAS CHROMATOGRAPHY-MASS SPECTROMETRY

The GC-MS characterization of the ethylchloroformate derivatives of amino acids in an aqueous medium has been applied to non-protein amino acids. Derivatization of non-protein amino acids using ethylchloroformate, trifluoroethanol, and pyridine produced strong [M + 1](+) and [M - 1](-) ions in positive and negative chemical ionization (CI) modes, respectively. Twenty-one out of the twenty-three non-protein amino acids studied produced detectable ion chromatograms in both ionization modes when methane was used as the CI reagent gas. Mass spectra of these non-protein amino acid derivatives showed characteristic [M - 19](+), [M + 1](+), [M + 29](+), and [M + 41](+) peaks in the positive chemical ionization mode, and [M - 1](-), and [M + 35](-) peaks in the negative chemical ionization mode. The detection limits and the linear dynamic range of trifluorethanol ethylchloroformate derivatives of non-protein amino acids were studied using positive chemical ionization. The detection limits are mostly in the femtomole range.