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Metabolism and Enzymology

Glucosylation of Steviol and Steviol-Glucosides in Extracts from Stevia rebaudiana Bertoni

Applied Biological Science, Faculty of Agriculture, Shimane University, Matsue-Shi, Shimane 690, Japan, Central Research Laboratories of Dainippon Ink and Chemicals, Inc., Sakura-Shi, Chiba 285-01, Japan

To evaluate and characterize stevioside biosynthetic pathway in Stevia rebaudiana Bertoni cv Houten, two enzyme fractions that catalyze glucosylation of steviol (ent-13-hydroxy kaur-16-en-19-oic acid) and steviol-glucosides (steviol-13-O-glucopyranoside, steviolbioside and stevioside), utilizing UDP-glucose as the glucose donor, were prepared from the soluble extracts of S. rebaudiana leaves. Enzyme fraction I, passed through DEAE-Toyopearl equilibrated with 50 millimolar K-phosphate pH 7.5, catalyzed the glucosylation to steviol and 19-O-methylsteviol, but not to iso-steviol and 13-O-methylsteviol, indicating that 13-hydroxyl group of the steviol skeleton is glucosylated first from UDP-glucose to produce steviol-13-O-glucopyranoside. Enzyme fraction II, eluted from the DEAE-Toyopearl column with 0.15 molar KCI, catalyzed the glucose transfer from UDP-glucose to steviol-13-O-glucopyranoside, steviolbioside and stevioside, but not to rubusoside (13, 19-di-O-glucopyranoside) and rebaudioside A. The reaction products glucosylated from steviol-13-O-glucopyranoside, steviolbioside and stevioside were identified to be steviolbioside, stevioside and rebaudioside A, respectively. These results indicate that in the steviol-glucoside biosynthetic pathway, steviol-13-O-glucopyranoside produced from the steviol glucosylation is successively glucosylated to steviolbioside, then to stevioside producing rebaudioside A.