Rapid Determination of Double Bond Positions in Monounsaturated Fatty Acids by GC-MS and Its Application to Fatty Acid Analysis

Abstract

A rapid method has been devised for the GC-MS determination of double bond positions in monounsaturated fatty acids as their dimethyl disulfide adducts. As a standard procedure for the single-step preparation of adducts, fatty acid methyl esters were incubated with dimethyl disulfide in the presence of I₂ as the catalyst for 30min. After the reduction of I₂ with NaHSO₃, hexane-ether mixture was added to the resulting system, and the upper phase was injected directly into a GC-MS. When the original esters contained a large quantity of polyenoates, TLC purification was used to remove contaminating by-products from the polyenoates before conducting the GC-MS analysis. The adducts of monoenoates had relatively shorter retention times under the GC-MS conditions, and gave simple mass spectra and easily recognizable molecular ions. The cleavage between the methylthio-substituted carbons gave key fragment ions showing the original double bond positions in the aliphatic chain. This method was applied to the fatty acid analysis of naturally-occurring lipids, such as chlorella, parsley seed and soybean lipids. The positional isomers, 14:1 (n-9, n-7 and n-5), 16:1 (n-9, n-7 and n-5), 18:1 (n-9 and n-7), and 17:1 (n-8), could be readily detected in chlorella, 18:1 (n-12, n-9 and n-7) in parsley seed, and 18:1 (n-9 and n-7) in soybean.