Abstract

Incubations of [8(R)-2H]9(S)-hydroperoxy-10(E),12(Z)-octadecadienoic acid, [14(R)-2H]13(S)-hydroperoxy-9(Z),11(E)-octadecadienoic acid and [14(S)-2H]13(S)-hydroperoxy-9(Z),11(E)-octadecadienoic acid were performed with preparations of plant tissues containing divinyl ether synthases. In agreement with previous studies, generation of colneleic acid from the 8(R)-deuterated 9(S)-hydroperoxide was accompanied by loss of most of the deuterium label (retention, 8%), however, the opposite result (98% retention) was observed in the generation of 8(Z)-colneleic acid from the same hydroperoxide. Formation of etheroleic acid and 11(Z)-etheroleic acid from the 14(R)-deuterated 13(S)-hydroperoxide was accompanied by loss of most of the deuterium (retention, 7-8%), and, as expected, biosynthesis of these divinyl ethers from the corresponding 14(S)-deuterated hydroperoxide was accompanied by retention of deuterium (retention, 94-98%). Biosynthesis of omega5(Z)-etheroleic acid from the 14(R)- and 14(S)-deuterated 13(S)-hydroperoxides showed the opposite results, i.e. 98% retention and 4% retention, respectively. The experiments demonstrated that biosynthesis of divinyl ether fatty acids from linoleic acid 9- and 13-hydroperoxides takes place by a mechanism that involves stereospecific abstraction of one of the two hydrogen atoms alpha to the hydroperoxide carbon. Furthermore, a consistent relationship between the absolute configuration of the hydrogen atom eliminated (R or S) and the configuration of the introduced vinyl ether double bond (E or Z) emerged from these results. Thus, irrespective of which hydroperoxide regioisomer served as the substrate, divinyl ether synthases abstracting the pro-R hydrogen generated divinyl ethers having an E vinyl ether double bond, whereas enzymes abstracting the pro-S hydrogen produced divinyl ethers having a Z vinyl ether double bond.

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