Carotenoid biosynthesis: Isolation and characterization of a bifunctional enzyme catalyzing the synthesis of phytoene.

Phytoene is the first C(40) intermediate in the biogenesis of carotenoids. It is formed by two enzyme activities, catalyzing (i) the coupling of two molecules of geranylgeranyl diphosphate to yield prephytoene diphosphate and (ii) the conversion of prephytoene diphosphate into phytoene. We show now, with Capsicum chromoplast stroma, that the overall activity resides in a single protein, which has been purified to homogeneity by affinity chromatography. The monomeric structure and the molecular size (M(r) 47,500) were demonstrated by NaDodSO(4)/PAGE and glycerol gradient centrifugation. Further characterization was achieved by using specific antibodies which allowed immunofractionation and immunoprecipitation of the enzymatic activity from chromoplast stroma. The two reactions followed conventional Michaelis-Menten kinetics, with K(m) values of 0.30 muM and 0.27 muM, respectively, for geranylgeranyl diphosphate and prephytoene diphosphate. The activity of the enzyme depends strictly upon the presence of Mn(2+). This selectivity may be one of the factors regulating the competition with potentially rival enzymes converting geranylgeranyl diphosphate into other plastid terpenoids. The two enzymatic reactions were inhibited by inorganic pyrophosphate and by the arginine-specific reagent hydroxyphenylglyoxal. In no instance were the two reactions kinetically uncoupled. These properties strongly suggest that the same enzyme catalyzes the two consecutive reactions, and we propose to name it phytoene synthase.

Demonstration and solubilization of lycopene cyclase from capsicum chromoplast membranes.

The conversion of phytoene into beta-carotene was demonstrated previously in chromoplast membranes prepared from Capsicum fruits (B. Camara et al. 1982 Eur J Biochem 127: 255-258). The direct cyclization of lycopene into beta-carotene and the successful solubilization of the enzymic activity involved in this reaction is reported.

Terpenoid Metabolism in Plastids : Isolation and Biochemical Characteristics of Capsicum annuum Chromoplasts.

A technique for the isolation and the purification of Capsicum annum L. var. Yolo Wonder chromoplasts is described. The degree of purity of the isolated chromoplasts is greatly improved by the absence of MgCl(2) in the extraction medium and in the gradient purification system, as shown by electron micrographs and the near absence of antimycin-insensitive NADH:cytochrome c reductase activity and succinate:cytochrome c reductase activity. Furthermore, phosphatidylserine was absent and the phosphatidylethanolamine content was reduced by a factor of 5 in these preparations, which were active in the synthesis of galactolipids, prenylquinones, and carotenoids.