SUMMARYVery-long-chain fatty acids (VLCFAs) are essential precursors of cuticular waxes and aliphatic suberins in roots. The first committed step in VLCFA biosynthesis is condensation of C 2 units to an acyl CoA by 3-ketoacyl CoA synthase (KCS). In this study, two KCS genes, KCS20 and KCS2/DAISY, that showed higher expression in stem epidermal peels than in stems were isolated. The relative expression of KCS20 and KCS2/DAISY transcripts was compared among various Arabidopsis organs or tissues and under various stress conditions, including osmotic stress. Although the cuticular waxes were not significantly altered in the kcs20 and kcs2/daisy-1 single mutants, the kcs20 kcs2/daisy-1 double mutant had a glossy green appearance due to a significant reduction of the amount of epicuticular wax crystals on the stems and siliques. Complete loss of KCS20 and KCS2/DAISY decreased the total wax content in stems and leaves by 20% and 15%, respectively, and an increase of 10-34% was observed in transgenic leaves that over-expressed KCS20 or KCS2/DAISY. The stem wax phenotype of the double mutant was rescued by expression of KSC20. In addition, the kcs20 kcs2/daisy-1 roots exhibited growth retardation and abnormal lamellation of the suberin layer in the endodermis. When compared with the single mutants, the roots of kcs20 kcs2/daisy-1 double mutantss exhibited significant reduction of C 22 and C 24 VLCFA derivatives but accumulation of C 20 VLCFA derivatives in aliphatic suberin. Taken together, these findings indicate that KCS20 and KCS2/DAISY are functionally redundant in the two-carbon elongation to C 22 VLCFA that is required for cuticular wax and root suberin biosynthesis. However, their expression is differentially controlled under osmotic stress conditions. Keywords: Arabidopsis thaliana, 3-ketoacyl CoA synthase, suberin, very-long-chain fatty acids (VLCFAs), wax.
INTRODUCTIONVery-long-chain fatty acids (VLCFAs) are fatty acids with chains of 20 or more carbons. In plants, VLCFAs are essential precursors of various lipids, including the cuticular waxes that cover the aerial surfaces (for review, see Jenks et al., 1994;Post-Beittenmiller, 1996;Kunst and Samuels, 2003;Samuels et al., 2008), the aliphatic suberin embedded in the cell walls of the root endodermis and the periderm of shoots and roots (for review, see Kolattukudy, 1980Kolattukudy, , 2001Bernards, 2002;Franke and Schreiber, 2007;Pollard et al., 2008), the triacylglycerols (TAGs) that accumulate in seeds (Stefansson et al., 1961;Lassner et al., 1996;Barret et al., 1998), and the sphingolipids and phospholipids in cell membranes (Schneiter et al., 1996;Devaiah et al., 2006;Dickson et al., 2006). VLCFA derivatives act as protective barriers between plants and the environment, provide energy storage in seeds, and function as signaling molecules in membranes.Cuticular waxes are mainly composed of complex mixtures of VLCFAs and their derivatives, aldehydes, alkanes, primary In higher plants, root suberin is organized in a characteristic lamella structure that conta...
