geranyl-pyrophosphate has been researched along with fenchol* in 3 studies
3 other study(ies) available for geranyl-pyrophosphate and fenchol
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Biosynthesis of monoterpenes. Stereochemistry of the enzymatic cyclization of geranyl pyrophosphate to (-)-endo-fenchol.
The conversion of geranyl pyrophosphate to (-)-endo-fenchol is considered to proceed by the initial isomerization of the substrate to (-)-(3R)-linalyl pyrophosphate and the subsequent cyclization of this bound intermediate. Incubation of (1R)-[2-14C,1-3H]- and (1S)-[2-14C,1-3H]geranyl pyrophosphate with a preparation of (-)-endo-fenchol cyclase (synthase) from common fennel (Foeniculum vulgare) gave labeled product of unchanged 3H:14C ratio in both cases, and each was dehydrated to a mixture of alpha- and beta-fenchene which were oxidized to the corresponding alpha- and beta-fenchocamphorones, again without change in isotope ratio. The location of the tritium label was deduced in each case by stereoselective, base-catalyzed exchange of the exo-alpha-hydrogen of the derived ketone. The findings indicated that the configuration at C1 of the substrate was retained in the enzymatic transformation to (-)-endo-fenchol which is entirely consistent with the syn-isomerization of geranyl pyrophosphate to (3R)-linalyl pyrophosphate and cyclization of the latter via the anti-endo-conformer. These absolute stereochemical elements of the reaction sequence were confirmed by the enzymatic conversion of (3R)-1Z-[1-3H]linalyl pyrophosphate to (-)-endo-fenchol and by the location of the tritium in the derived fenchocamphorones as before. The summation of the results fully defines the overall stereochemistry of the coupled isomerization and cyclization of geranyl pyrophosphate to (-)-endo-fenchol. Topics: Camphanes; Models, Chemical; Norbornanes; Polyisoprenyl Phosphates; Stereoisomerism; Terpenes | 1988 |
Biosynthesis of monoterpenes. Enantioselectivity in the enzymatic cyclization of linalyl pyrophosphate to (-)-endo-fenchol.
The conversion of geranyl pyrophosphate to (-)-endo-fenchol is considered to proceed by the initial isomerization of the substrate to (-)-(3R)-linalyl pyrophosphate and the subsequent cyclization of this bound intermediate. To test this stereochemical scheme, phosphatase-free preparations of (-)-endo-fenchol cyclase from fennel (Foeniculum vulgare M.) fruit were repeatedly incubated with a sample of (3RS)-[1-3H2]linalyl pyrophosphate until approximately 50% of this precursor was converted to the bicyclic monoterpenol end product. The residual linalyl pyrophosphate was isolated and enzymatically hydrolyzed to the free alcohol, linalool, which was resolved by chiral phase capillary gas-liquid chromatography of the derived threo and erythro mixture of 1,2-epoxides. The predominance of the (3S)-enantiomer in the residual substrate indicated that the (3R)-enantiomer was preferred for the cyclization to (-)-(1S)-endo-fenchol. This conclusion was subsequently confirmed by the preparation and direct testing of (3R)-1Z-[1-3H] linalyl pyrophosphate, which afforded a Km value lower than that observed for geranyl pyrophosphate and a relative velocity nearly three times higher. (3S)-1Z-[1-3H]Linalyl pyrophosphate was not an effective substrate for (-)-endo-fenchol biosynthesis but did, by an anomalous cyclization, give rise to low levels of the enantiomeric (+)-(1R)-endo-fenchol as well as to other products. These results support the proposed stereochemical model and also suggest that the isomerization step is rate limiting in the coupled isomerization-cyclization of geranyl pyrophosphate to (-)-endo-fenchol. Topics: Acyclic Monoterpenes; Camphanes; Intramolecular Lyases; Isomerases; Monoterpenes; Norbornanes; Plants; Polyisoprenyl Phosphates; Stereoisomerism; Substrate Specificity; Terpenes | 1985 |
Biosynthesis of monoterpenes: conversion of the acyclic precursors geranyl pyrophosphate and neryl pyrophosphate to the rearranged monoterpenes fenchol and fenchone by a soluble enzyme preparation from fennel (Foeniculum vulgare).
Topics: Camphanes; Cell-Free System; Chromatography; Manganese; Norbornanes; Plants; Polyisoprenyl Phosphates; Solubility; Stereoisomerism | 1980 |