Biosynthesis of 1‐alkenes in higher plants: stereochemical implications

Abstract

Odd numbered 1-alkenes, such as 1-pentadecene or 1,8,11,14-heptadecatetraene are formed from palmitic or linolenic acid by fragmenlative decarboxylation. Incubation studies with germinating safflower (carthamus tinctorius) and (2R,3R)-12-phenyl[2,3-²H₂]dodecanoic acid, (2S,3S)-12-phenyl[2,3-²H₂]dodecanoic acid, (2R)-12-phenyl[2-²H]dodecanoic acid and (2S)-12-phenyl[2-²H]dodecanoic acid instead of the natural α-linolenic acid precursor revealed the fragmentation to be an overall anti elimination of the 3-pro(S) hydrogen and the carboxyl group (anti-periplanar transition state geometry). Externally offered 3-hydroxy acids are not fragmented to 1-alkenes. The most probable mechanistic alternatives are in agreement with abstraction of the 3-pro(S) hydrogen as a radical followed by electron transfer and fragmentation, or transient insertion of oxygen into the 3-pro(S) C–H bond and subsequent fragmentation into an 1-alkene and CO₂ after appropriate activation. The mechanism seems to be of general importance for the biosynthesis of vinylic substructures of natural products from oxygenated precursors.