Mechanisms for elongation in the biosynthesis of fatty acid components of epi-cuticular waxes

Abstract

It is known that branched-chain amino acids can serve as precursors to iso- and anteiso-branched components of epi-cuticular waxes. Keto acid deamination products of Val, Leu and Ile are thought to serve as primers which are elongated by fatty acid synthase. However, the origin of elongation carbons has not been studied directly. Nor has the mechanism for formation of odd-carbon-length, straight- or branched-chain, cuticular ester fatty acids or free odd-carbon-length, straight fatty acid components of waxes been characterized. It is not known that α-oxidation of even-length precursors or elongation of odd-length primers is involved in these cases. Here, we present evidence which substantiates the expectation that elongation of branched as well as straight-chain precursors to wax ester acids occurs by fatty acid synthase catalyzed by addition of two carbon units via acetate. Also, we present evidence which indicates that odd-carbon-length acids can result from elongation of odd-carbon-length primers (at least branched), rather than even-length acids shortened by α-oxidation.