Anthocyanin-containing vacuoles were isolated from protoplasts of a cell suspension culture of Daucus carota. The vacuoles were stable for at least 2 h as demonstrated by the fact that they showed no efflux of anthocyanin. The uptake of radioactively labelled anthocyanin was time-dependent with a pH optimum at 7.5, and could be inhibited by the protonophore carbonylcyanide m-chlorophenylhydrazone. Furthermore, the transport was specific, since vacuoles from other plant species showed no uptake of labelled anthocyanin, and strongly depended on acylation with sinapic acid, as deacylated glycosides were not taken up by isolated vacuoles. Hence, it is suggested that the acylation of anthocyanin, which is also required for the stabilization of colour in vacuoles, is important for transport, and that acylated anthocyanin is transported by a selective carrier and might be trapped by a pH-dependent conformational change of the molecule inside the acid vacuolar sap.
The major anthocyanins accumulated by an Afghan cultivar of Daucus carota L. are cyanidin 3-(xylosylglucosylgalactosides) acylated with sinapic or ferulic acid. The formation of the branched triglycoside present as a common structural element requires an ordered sequence of glycosylation events. Two of these enzymic glycosylation reactions have been detected in protein preparations from carrot cell-suspension cultures. The first step is a galactosyl transfer catalyzed by UDP-galactose: cyanidin galactosyltransferase (CGT) resulting in cyanidin 3-galactoside. The putative second step is the formation of cyanidin 3-(xylosylgalactoside) catalyzed by UDP-xylose: cyanidin 3-galactoside xylosyltransferase (CGXT). Both enzyme activities were characterized from crude protein preparations. The CGT was purified 526-fold from the cytosolic fraction of UV-irradiated cell cultures by ion-exchange chromatography on diethylaminoethyl (DEAE)-Sephacel, affinity chromatography on Blue Sepharose CL-6B, gel permeation chromatography on Sephadex G-75 and elution from the gel matrix after non-dissociating PAGE. Its molecular mass was estimated by SDS-PAGE and by calibrated gel permeation chromatography on Sephadex G-75. In both cases a molecular mass of 52 kDa was determined, indicating that the native protein is a monomer of 52 kDa. The galactosyl transfer and the xylosyl transfer are presumed to be catalyzed by separate enzymes.
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