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1.
Isothujone (trans-thujan-3-one) was formed from MVA-[14C, 3H] in Tanacetum vulgare with retention of the pro-(4R) hydrogen of precursor, but with loss of the pro-(4S) hydrogen and of one hydrogen from C-5. Cell-free extracts could not sustain the formation of isothujone from MVA but yielded geraniol and nerol (3,7-dimethylocta-trans-2,6-dien-1-ol and its cis isomer) with retention of the pro-(4R) and loss of the pro-(4S) hydrogen in each case: no hydrogen was lost from C-5 of MVA in formation of geraniol, but one such atom was lost in the formation of nerol. These results support the sequence: geraniol → nerol → isothujone: in which the first two compounds (or their biogenetic equivalents) are interconverted by a redox process involving their derived aldehydes. They are not consistent with a direct pathway to nerol from C5 intermediates or with routes involving cyclisation of linalol (3,7-dimethylocta-1,6-dien-3-ol) formed directly from the C5 compounds or from geraniol. The cell-free preparations could not interconvert geraniol and nerol, their phosphates or pyrophosphates. This may be due to the inability of a prenyltransferase-isomerase multi-enzyme system to accept exogenously-supplied intermediates under these (in vitro) conditions.  相似文献   

2.
Use of 14C, 3H-labelled precursors revealed that flowerheads of Rosa damascena converted geraniol (3,7-dimethylocta-trans-2,6-dien-1-ol) into nerol (the corresponding cis-isomer) with loss of the pro-(1S) hydrogen, whereas the reverse isomerization involved loss of the pro-(1R) atom. The inference that the interconversion proceeded by redox reactions with the formation of the corresponding aldehydes was supported by the preparation of cell-free extracts from R. damascena and R. dilecta that sustained such processes. These reactions were NADP+-NADPH dependent and had pH optima at 7.0 and 9.0, respectively.  相似文献   

3.
Anand Akhila 《Phytochemistry》1985,24(11):2585-2587
Use of [14C,3H]-labelled precursors revealed that leaf blades of Cymbopogon flexuosus converted geraniol (3,7-dimethylocta-trans-2,6-diene-1-ol) into citral-trans with loss of pro-(1S) hydrogen whereas nerol lost the pro-(1R) hydrogen while being converted into citral-cis. Secondly, the citral-trans is converted into citral-cis and vice versa and there is no separate route for the biosynthesis of either of the two aldehyde isomers.  相似文献   

4.
Cell-free extracts from leaves of Tanacetum vulgare synthesised geraniol and nerol (3,7-dimethylocta-trans-2-ene-1-ol and its cis isomer) in up to 11·9 and 2·4% total yields from IPP-[4-14C] and MVA-[2-14C] respectively. Optimum preparations were obtained from plant material just before the onset of flowering. The ratio of the monoterpenols varied 28-fold for different preparations under conditions where these products or their phosphate esters were not interconverted. Similar extracts incorporated α-terpineol-[14C] and terpinen-4-ol-[14C] (p-menth-1-en-8- and -4-ol respectively) in 0·05 to 2·2% yields into a compound tentatively identified as isothujone (trans-thujan-3-one), and preparations from flowerheads converted IPP-[4-14C] in 2·7% yield into geranyl and neryl β-d-glucosides. Inhibitors of IPP-isomerase had little effect on the incorporation of IPP into the monoterpenols in cell-free systems from which endogenous compounds of low molecular-weight had been removed. The inference that a pool of protein-bonded DMAPP or its biogenetic equivalent was present was supported by the demonstration that geraniol and nerol biosynthesised in the absence of the inhibitors were predominantly (65 to 100%) labelled in the moiety derived from IPP.  相似文献   

5.
Alcohol oxidase (alcohol: O2 oxidoreductase) from leaves of Tanacetum vulgare has been purified 5150-fold to homogeneity on disc electrophoresis and gel electrofocussing. The enzyme which is probably flavoprotein, has molecular weight 180 000 daltons and is comprised of two sub-units of 94 000 and 75 000 daltons. It is active over a broad range (pH 5–9) and best accepts primary aliphatic alcohols with 6 to 10 carbons, especially those with a 2-ene group. Km values for hex-trans-2-ene-1-ol, geraniol (3,7-dimethylocta-trans-2,6-dien-1-ol) and n-octanol were 0.19, 1.56 and 0.49 mM respectively. The significance of the enzyme in the formation of leaf aldehyde (hex-trans-2-ene-1-al) and in terpene metabolism is discussed.  相似文献   

6.
Extracts from Artemisia annua and Santolina chamaecyparissus converted 14C-labelled IPP, DMAPP and DMVC into artemisia ketone, its corresponding alcohol, lavandulol and trans-chrysanthemyl alcohol with up to 12.0 % incorporation of tracer. DMVC was the most effective precursor under standard conditions and led to unequal distribution of tracer in the C-5 moieties. The same extracts interconverted cis and trans-chrysanthemyl alcohols and their pyrophosphates, artemisia ketone, and artemisyl alcohol in up to 10·4% yields, but geraniol, nerol and linalol or their pyrophosphates were not precursors of any of these compounds. Formation of artemisia ketone and its alcohol from C-5 intermediates was enhanced by NAD+ and NADP+ but was unaffected by absence of oxygen. These co-factors did not affect the yields of lavandulol or trans-chrysanthemyl alcohol. These observations suggest closely related biogenetic pathways to the three irregular skeltons that do not involve the usual C-10 intermediates of monoterpene biosynthesis: i.e. the biogenetic isoprene rule is not obeyed.  相似文献   

7.
Degradation of geraniol (3,7-dimethylocta-trans-2,6-dien-1-ol) biosynthesized in Rosa dilecta has proved that C-10 is exclusively derived from C-2 of mevalonate. This verifies the generally accepted but hitherto unproven view of the origin of the gem-methyls in this compound and of the corresponding groups in other terpenoids.  相似文献   

8.
Measurements of isotope ratios in car-3-ene biosynthesized in Pinus sylvestris from (3RS)-mevalonate-[2-14C,2R-3H1], and [2-14C,4R-3H1] and the corresponding S-epimers and also from geraniol- [14C,1-3H2] and nerol-[14 C,1-3H2] have shown that the carane skeleton is constructed from its presumed monocyclic precursor with migration of an olefinic bond, together with an unexpected 1,2-shift of a proton to the site of the original double bond. The detailed stereochemistry of the processes allows a two-step mechanism to be inferred for the cyclization in which a bonded intermediate is involved. The conversion of geraniol into nerol (en route to car-3-ene) probably is a redox process with the intermediacy of the corresponding aldehydes. The present results eliminate a possible mechanism for this isomerization wherein cyclopropane derivatives occur as intermediates.  相似文献   

9.
Degradation of (+)-isothujone (trans-thujan-3-one) biosynthesized in Tanacetum vulgare from (3RS)-mevalonic acid (MVA)-[2-14C, 2-3H2] showed that one hydrogen from C-2 of the precursor was specifically incorporated at C-4 of product whereas the other was lost. Feeding of α-terpineol-[9-14C, 4-3H1, 10-3H3] (p-menth-1-en-8-ol) yielded isothujone with the same isotope ratios as in precursor. These results indicate 1,2 hydrogen-shifts at two locations in the construction of the the thujane skeleton from α-terpineol or its biogenetic equivalent, and are consistent with a mechanism involving direct cyclization of the latter to a product that by-passes the formation of the biogenetic equivalent of terpinen-4-ol (p-menth-1-en-4-ol) as an intermediate. (3R)-MVA-[14C, 3H] was more effectively incorporated (up to 1.5 %) into (+)-isothujone in vivo during autumn or winter than in summer (up to 0.02%).  相似文献   

10.
A method is described for the chemical synthesis of stigmasta-5,24-dien-3β-ol-[26-14C] and (24S)-24-ethylcholesta-5,25-dien-3β-ol-[26-14C] (clerosterol). 28-Isofucosterol-[7-3H2] fed to developing barley seedlings (Hordeum vulgare) was incorporated into sitosterol and stigmasterol confirming the utilisation of a 24-ethylidene sterol intermediate in 24α-ethyl sterol production in this plant. Also, the use of mevalonic acid-[2-14C(4R)-4-3H1] verified the loss of the C-25 hydrogen of 28-isofucosterol during its conversion into sitosterol and stigmasterol in agreement with the previously postulated isomerisation of the 24-ethylidene sterol to a Δ24(25)-sterol prior to reduction. However, feeding stigmasta-5,24-dien-3β-ol [26-14C] to barley seedlings gave very low incorporation into sitosterol. Attempts to trap radioactivity from mevalonic-[2-14C(4R)-4-3H1] in stigmasta-5,24-dien-3β-ol when this unlabelled sterol was administered to barley seedlings gave only a very small incorporation although both 28-isofucosterol and sitosterol were labelled.  相似文献   

11.
ABSTRACT

The biotransformation of citral, an industrially important monoterpenoid, has been extensively studied using many microbial biocatalysts. However, the metabolic pathways involved in its biotransformation are still unclear, because citral is a mixture of the trans-isomer geranial and the cis-isomer neral. Here, we applied the heterologous expression of geoA, a gene encoding geraniol dehydrogenase that specifically converts geraniol to geranial and nerol to neral, to identify the metabolic pathways involved in the biotransformation of citral. Acinetobacter sp. Tol 5 was employed in order to demonstrate the utility of this methodology. Tol 5 transformed citral to (1R,3R,4R)-1-methyl-4-(1-methylethenyl)-1,3-cyclohexanediol and geranic acid. Biotransformation of citral precursors (geraniol and nerol) by Tol 5 transformant cells expressing geoA revealed that these compounds were transformed specifically from geranial. Our methodology is expected to facilitate a better understanding of the metabolic pathways involved in the biotransformation of substrates that are unstable and include geometric isomers.  相似文献   

12.
The investigation of Pegolettia senegalensis afforded several new sesquiterpene lactones, eight cis-6,12-germacra-trans,trans-1(10),4,11-trienolides, five cis-6,12-eudesmanolides, two elemanolides, 8,14-cyclogermacra-1(10),4,7(11)-trien-6,12-olide with a new carbon skeleton, three germacra-1(10),4,11(13)-trien-12-oic acids with ester residues at C-8, 18-hydroxygeranyl nerol, 1,3-dihydroxyoctadecane and a mixture of esters of 3,4-dihydroxy-dihydrocinnamyl alcohol. The structures were elucidated by high field 1HNMR spectroscopy and some chemical transformations. The C-10 configuration of 6,12-cis-eudesmanolides from Calostephane divaricata and Inula crithmoides most likely has to be corrected. The chemotaxonomic situation of the genus Pegolettia and biogenetic considerations are discussed briefly.  相似文献   

13.
A cytochrome P-450 present in ripening avocado (Persea americana) fruit mesocarp (CYTP71A1) had previously been shown to metabolize the monoterpenoids nerol and geraniol (Hallahan et al. (1992) Plant Physiol. 98, 1290-1297). Using DNA encoding CYP71A1 as a hybridization probe, we have shown by Southern analysis that a related gene is present in the catmint, Nepeta racemosa. RNA blot analysis, together with Western analysis of catmint leaf polypeptides using avocado cyt P-450 antiserum, showed that a closely related gene is expressed in catmint leaves. Cytochrome P-450 in catmint microsomes catalysed the specific hydroxylation of nerol and geraniol at C-10, whereas avocado CYP71A1, in either avocado microsomes or heterologously expressed in yeast, catalysed 2,3- or 6,7-epoxidation of these substrates. These results suggest that orthologous genes of the CYP71 family are expressed in these two plant species, but catalyse dissimilar reactions with monoterpenoid substrates.  相似文献   

14.
Pseudotsuga menziesii cortical oleoresin was found to contain 1·7% of oxygenated terpenoids and compounds of similar volatility composed of linalool, methylsalicylate, bornyl acetate, citronellol, geranyl acetate, methylthymol, citronellyl acetate, terpinen-4-ol, borneol, isopulegol, anethole, terpinen-4-ol acetate, camphor, geraniol, neryl acetate, and nerol. Sesquiterpenoid hydrocarbons were low (only 0·07%) and contained sibirene and longifolene as main constituents, with β-caryophyllene, γ-muurolene, γ-cadinene (identified by IR), and 20 additional compounds in small amounts. p-Cymen-8-ene was identified in monoterpene hydrocarbon fraction.  相似文献   

15.
Soluble enzyme preparations from Salvia officinalis convert the acyclic precursor [1-3H2,G-14C]geranyl pyrophosphate to cyclic monoterpenes of the pinane (α-pinene,β-pinene), isocamphane (camphene), p-menthane (limonene,1,8-cineole), and bornane (bornyl pyrophosphate, determined as borneol) type without loss of tritium, and without significant conversion to other free acyclic intermediates. Similarly, [1-3H2,G-14C]geraniol is converted in intact S. officinalis leaves to the cyclic monoterpene olefins and 1,8-cineole, as well as to isothujone and camphor, without loss of tritium from C(1). These results clearly eliminate transcis isomerization of geranyl pyrophosphate to neryl pyrophosphate via aldehyde intermediates prior to cyclization, and they support a scheme whereby the trans precursor is cyclized directly by way of a bound linaloyl intermediate.  相似文献   

16.
β-Rutinosides (6-O-α-l-rhamnopyranosyl-β-d-glucopyranosides) and 6-O-α-l-arabinofuranosyl-β-d-glucopyranosides of geraniol, nerol and linalol have been isolated and characterized in Muscat of Alexandria grapes and wine. These monoterpene disaccharide glycosides, which are precursors of linalol oxidation state monoterpenes of the grape, are also present in another non-muscat Vitis vinifera var. Rhine Riesling.  相似文献   

17.
The sesquiterpenes cadina-4,10(15)-dien-3-one (1) and aromadendr-1(10)-en-9-one (squamulosone) (14) along with the triterpenoid methyl ursolate (21) were incubated with the fungus Mucor plumbeus ATCC 4740. Substrates 1, 14 and ursolic acid (20) were isolated from the plant Hyptis verticillata in large quantities. M. plumbeus hydroxylated 1 at C-12 and C-14. When the iron content of the medium was reduced, however, hydroxylation at these positions was also accompanied by epoxidation of the exocyclic double bond. In total nine new oxygenated cadinanes have been obtained. Sesquiterpene 14 was converted to the novel 2alpha,13-dihydroxy derivative along with four other metabolites. Methyl ursolate (21) was transformed to a new compound, methyl 3beta,7beta,21beta-trihydroxyursa-9(11),12-dien-28-oate (22). Two other triterpenoids, 3beta,28-dihydroxyurs-12-ene (uvaol) (23) and 3beta,28-bis(dimethylcarbamoxy)urs-12-ene (24) were not transformed by the micro-organism, however.  相似文献   

18.
MVA-[2-14C], IPP-[4-14C] and DMAPP-[4-14C] were incorporated (optimum 0.04%–0.8 %) into artemisia ketone by Artemisia annua in a position-specific manner so that the C-5 moiety not containing the carbonyl group was preferentially (87–95 %) labelled. IPP and DMAPP, but not MVA, were similarly utilised in Santolina chamaecyparissus. Feeding of geraniol-[2-14C] to A.annua resulted in artemisia ketone being labelled in a position indicating extensive degradation of the precursor. 14C-labelled cis and trans-chrysanthemyl alcohols and chrysanthemates or DMVC were negligibly (< 5 × 10?4 %) incorporated into artemisia ketone in both species over a range of feeding conditions. (+)-trans-Chrysanthemyl alcohol-[Me14C] was an effective (ca 2 % incorporation) precursor of the terpenoid part of pyrethrins I and II in flowers of Chrysanthemum cinerariaefolium but 14C-labelled artemisyl alcohol (3, 3, 6-trimethylheptan-1, 5-dien-4-ol) or (±)-cis-chrysanthemyl alcohol were not detectably incorporated. Although some of the negligible incorporations are probably attributable to compartmentation effects preventing access of precursors to biosynthetic sites, the experiments indicate some limitation of the previously proposed pathways of biogenesis of artemisia ketone and related irregular monoterpenes.  相似文献   

19.
Partial degradations of (+)-isothujone biosynthesised in Tanacetum vulgare after feeding IPP-[4-14C], DMAPP-[4-14C] or 3,3-dimethylacrylate-[Me-14C], and of geraniol and (+)-pulegone formed in Pelargonium graveolens and Mentha pulegium respectively after uptake of 3,3-dimethylacrylate-[Me-14C], indicated that none of these metabolites was a direct source of the part of the monoterpene skeleton derived hypothetically from DMAPP. Uptake of glucose-[U14C] into P. graveolens led, in contrast, to both IPP and DMAPP-derived moieties of geraniol being extensively labelled. Feeding of l-valine-[U-14C] and l-leucine-[U-14C] to all three plants resulted in negligible incorporation of tracer into monoterpenes. A soluble enzyme system prepared from foliage of T. vulgare that had been exposed to CO2-[14C] for 20 days converted isotopically-normal IPP into GPP with the DMAPP-derived portion containing essentially all (>98%) of the radioactivity present. These observations and those previously obtained from feeding experiments with other [14C]-labelled precursors on the same plant species are consistent with the occurrence of two metabolic pools of intermediates for monoterpene biosynthesis, one of which is probably protein-bonded.  相似文献   

20.
Hydroxylation of geraniol and nerol by a monooxygenase from Vinca rosea   总被引:4,自引:0,他引:4  
A microsomal mixed function oxidase isolated from V. rosea seedlings was shown to catalyze the hydroxylation of the monoterpene alcohols, geraniol and nerol, to their corresponding 10-hydroxy derivatives. Hydroxylase activity was dependent upon NADPH and oxygen and was associated with the 100,000 X g pellet which exhibited a characteristic reduced P-450-CO binding spectra. Light reversible inhibition by CO as well as differential sensitivity to other inhibitors established the hydroxylase as a cytochrome P-450 type. Cis-trans isomerase activity was not observed in this preparation. Both geraniol and nerol were shown to be hydroxylated almost exclusively at the C-10 methyl group.  相似文献   

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