Synthesis of Ethyl 5Z,9Z,12Z-octadecatrienoate (ethyl pinolenate) and Methyl 12Z,15Z-octadecadienoate

The expoxidation of ethyl linolenate (ethyl (Z)-9-(Z)-12-(Z)-15-octadecatrienoate) (i) with m-chloroperbenzoic acid is described. When the reaction was performed using one mole of peracid per mole of (i), the three monoepoxides of (i), namely, ethyl c/s-9,10-epoxy-(Z)-12-(Z)-15-octadecadienoate (if)

In order to study the effect of the double bonds geometry of linolenic acid (18:3 n-3) on its biological activities, (gz,12Z, I 5E)-and (9E, I 2Z, 15Z)-octadecatrienoic acids, found in many refined vegetable oils, were made by total synthesis. Synthesis of 18:3 A9c, 12c, 1St involves a Wittig reacti

## Abstract For studies into the relationship between their physical properties and chemical structure, several polyunsaturated fatty acids related to (__Z,Z,Z__)‐6,9,12‐octadecatrienoic acid and (__Z,Z,Z__)‐8,11,14‐eicosatrienoic acid were synthesized. Methyl (__E,Z,Z__)‐2,11,14‐eicosatrienoate a

3Z,6E)-l-Bromododeca-3,6-diene, a common intermediate in the synthesis of labelled 12t linoleic acid and 14t arachidonic acid, was obtained from (E)-3-nonyl-l-ol, in four steps, via conventional functional manipulations. Cross-coupling of this bromododecadiene with the Grignard reagent of l-chloro-5