Isomerization of octadecapentaenoic acid (18:5n‐3) in algal lipid samples under derivatization for GC and GC‐MS analysis |
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Authors: | Vasily I. Svetashev Andrey B. Imbs |
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Affiliation: | A.V. Zhirmunsky Institute of Marine Biology, Far Eastern Branch of Russian Academy of Sciences, , Vladivostok, 690059 Russia |
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Abstract: | During gas chromatography (GC) analysis of fatty acid (FA) composition of the dinoflagellate Gymnodinium kowalevskii, we found unex‐pectedly low and irreproducible content of all‐cis‐3,6,9,12,15‐octadecapentaenoic acid (18:5n‐3), which is an important chemotaxonomic marker of several classes of microalgae. We compared chromatographic behavior of 18:5n‐3 methyl ester and other GC derivatives obtained using different conventional methods of derivatization. The use of methods based on saponification or base‐catalyzed transesterification resulted in a mixture of double‐bond positional isomers of 18:5. On a SUPELCOWAX 10 column, the equivalent chain length (ECL) value for authentic 18:5n‐3 methyl ester was 20.22, whereas the main component after base‐catalyzed methylation had ECL 20.88. Attempts to prepare N‐acyl pyrrolidides or 4,4‐dimethyloxazoline (DMOX) derivatives of 18:5n‐3 also gave inadequate results. These derivatives also showed a main peak corresponding to isomerized 18:5. Mass spectra for both DMOX and pyrrolidide derivatives of this compound showed the base peak at m/z 139, probably corresponding to 2,6,9,12,15‐18:5 acid. Of all methods tested for methylation, only derivatization with 5% HCl or 1% sulphuric acid in methanol gave satisfactory results. Therefore, GC or GC‐mass spectrometry analyses of algal lipids containing 18:5n‐3 may be inaccurate when base‐catalyzed methods of FA derivatization are applied. The best and simplest way to avoid incorrect GC results is to use standard acid‐catalyzed methylation. |
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Keywords: | dinoflagellate fatty acid derivatization
GC
GC‐MS
Gymnodinium kowalevskii
isomerization lipids octadecapentaenoic acid |
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