BIOSYNTHESIS OF MONOTERPENES - PRELIMINARY CHARACTERIZATION OF BORNYL PYROPHOSPHATE SYNTHETASE FROM SAGE (SALVIA-OFFICINALIS) AND DEMONSTRATION THAT GERANYL PYROPHOSPHATE IS THE PREFERRED SUBSTRATE FOR CYCLIZATION

Previous studies with soluble enzyme preparations from sage (Salvia officinalis) demonstrated that the monoterpene ketone (+)-camphor was synthesized by the cyclization of neryl pyrophosphate to (+)-bornyl pyrophosphate followed by hydrolysis of this unusual intermediate to (+)-borneol and then oxidation of the alcohol to camphor (R. Croteau, and F. Karp, 1977, Arch. Biochem. Biophys. 184, 77-86). Preliminary investigation of the (+)-bornyl pyrophosphate synthetase in crude preparations indicated that both neryl pyrophosphate and geranyl pyrophosphate could be cyclized to (+)-bornyl pyrophosphate, but the presence of high levels of phosphatases in the extract prevented an accurate assessment of substrate specificity. The competing phosphatases were removed by combination of gel filtration on Sephadex G-150, chromatography on hydroxylapatite, and chromatography on O-(diethylaminoethyl)-cellulose. In these fractionation steps, activities for the cyclization of neryl pyrophosphate and geranyl pyrophosphate to bornyl pyrophosphate were coincident, and on the removal of competing phosphatases, the synthetase was shown to prefer geranyl pyrophosphate as substrate ( V Km for geranyl pyrophosphate was 20-fold that of neryl pyrophosphate). No interconversion of geranyl and neryl pyrophosphates was detected. The partially purified bornyl pyrophosphate synthetase had an apparent molecular weight of 95,000, and required Mg2+ for catalytic activity (Km for Mg2+ ~ 3.5 mm). Mn2+ and other divalent cations were ineffective in promoting the formation of bornyl pyrophosphate. The enzyme exhibited a pH optimum at 6.2 and was strongly inhibited by both p-hydroxymercuribenzoate and diisopropylfluorophosphate. Bornyl pyrophosphate synthetase is the first monoterpene synthetase to be isolated free from competing phosphatases, and the first to show a strong preference for geranyl pyrophosphate as substrate. A mechanism for the cyclization of geranyl pyrophosphate to bornyl pyrophosphate is proposed. © 1979.