Biotransformation of citronellol by the basidiomycete Cystoderma carcharias in an aerated-membrane bioreactor

The basidiomycete Cystoderma carcharias transformed citronellol into 3,7-dimethyl-1,6,7-octanetriol as the main product. 3,7-Dimethyl-6,7-epoxy-1-octanol was identified as important intermediary product of the biotransformation, and the allylic diols 2,6-dimethyl-2-octene-1,8-diol, 3,7-dimethyl-5-octene-1,7-diol and 3,7-dimethyl-7-octene-1,6-diol were found to be minor products. Microbial formation of rose oxide, a flavour-impact component, was observed for the first time. The formation of the main products was inhibited by 70% after addition of 0.1 mmol l⁻¹ cytochrome monooxygenase inhibitors. Formation of 3,7-dimethyl-1,6,7-octanetriol was effective in a bioreactor with aeration over a coil of a hydrophobic microporous polypropene capillary membrane. Production rates of up to 150 mg l⁻¹ day⁻¹ were reached and led to a product concentration of 866 mg l⁻¹ (conversion rate: 52%). The total loss of the added volatile substrate via the exhaust air was 4.5% when this aeration method was used. Received: 30 July 1998 / Received revision: 2 November 1998 / Accepted: 7 November 1998     

Circadian rhythmicity in emission of volatile compounds by flowers of Rosa hybrida L. cv. Honesty

Quantitative headspace analyses of rose flowers showed no significant differences in composition of emitted volatile compounds between flowers on the intact plant and cut flowers placed in vase water containing sucrose at 0, 15 or 30 g · l⁻¹. Volatile components emitted were geraniol, nerol, citronellol, E-citral, Z-citral, methylgeranylate, trans-caryophyllene, β-cubebene, dihydro-β-ionone, 2-phenylethanol, 2-phenylethylacetate, 3,5-dimethoxytoluene and hexylacetate. When exposed to a 12-h photoperiod these components showed maximum emission during the light period and a rhythmicity which differed for the individual compounds. The circadian nature of the rhythmicity was confirmed by the continuation of rhythmicity during continued darkness or light, and was characterized by `transient' and `free running' periods of 27 and 24 h, respectively, and a phase shift of 12 h in rhythmicity when a 24-h period of continuous darkness was followed by re-exposure to a 12-h photoperiod. Rhythmicity in emission was not observed when flowers were kept in darkness before flower bud opening, but started immediately upon exposure to a 12-h photoperiod. Received: 14 April 1998 / Accepted: 28 May 1998     

The Branched-Chain Dodecylbenzene Sulfonate Degradation Pathway of Pseudomonas aeruginosa W51D Involves a Novel Route for Degradation of the Surfactant Lateral Alkyl Chain

Pseudomonas aeruginosa W51D is able to grow by using branched-chain dodecylbenzene sulfonates (B-DBS) or the terpenic alcohol citronellol as a sole source of carbon. A mutant derived from this strain (W51M1) is unable to degrade citronellol but still grows on B-DBS, showing that the citronellol degradation route is not the main pathway involved in the degradation of the surfactant alkyl moiety. The structures of the main B-DBS isomers and of some intermediates were identified by gas chromatography-mass spectrometric analysis, and a possible catabolic route is proposed.     

Photobiotransformation of indole to its value-added derivatives by Rhodobacter sphaeroides OU5

A purple non-sulfur anoxygenic phototrophic bacterium, Rhodobacter sphaeroides OU5 was able to photobiotransform indole in the presence of various organic substrates to its value-added derivatives tryptophan, tryptamine, indole lactic acid and indigo, which are of high commercial value. The product formed varied with the precursors provided in the medium. Received 21 August 1997/ Accepted in revised form 10 January 1998     

Variation in the Essential Oil Composition,Antioxidant Capacity,and Physiological Characteristics of Pelargonium graveolens L. Inoculated with Two Species of Mycorrhizal Fungi Under Water Deficit Conditions

In recent years, the application of arbuscular mycorrhizal fungi (AMF) has been considered to be an important strategy for improving crop yield and quality. In the present study, a factorial experiment based on a complete randomized design with two factors was performed to investigate the effect of AMF and water stress on the essential oil (EO) composition, antioxidant activity, and physiological and morphological characteristics of rose-scented geranium (Pelargonium graveolens L.). The factors included AMF inoculation (Rhizophagus intraradices, Funneliformis mosseae, and a mixture of both species) and irrigation levels [well-watered (WW), moderate drought stress (MDS), and severe drought stress (SDS)]. The main EO constituents were citronellol (31–37%) and geraniol (9–14%) in all treatments. Under water-stress conditions, some constituents increased, such as geraniol and geranyl formate, whereas others decreased, such as linalool, menthone and rose oxide. Overall, the highest amount of citronellol (37.3%) and geraniol (14.8%) was obtained in the plants inoculated with F. mosseae and R. intraradices under WW and MDS conditions, respectively. Antioxidant activity, total flavonoids, and phenolics were increased because of AMF inoculation, whereas a different trend was observed for the phenolic and flavonoid contents under water-stress conditions. Furthermore, water deficit elevated the amount of soluble carbohydrates as well as the proline content, whereas the amount of proline was lower in inoculated plants than in non-inoculated ones. All the growth parameters were improved in the AMF-inoculated plants compared to non-inoculated ones under different irrigation regimes. Drought conditions decreased the photosynthetic pigments and efficiency, whereas AMF plants ameliorated the adverse effect of drought conditions. In general, mycorrhizal inoculation resulted in an improvement in the growth parameters as well as the phytochemical and physiological characteristics of rose-scented geranium.

     

Regulation of hypaxial muscle development

The majority of skeletal muscles in higher vertebrates are hypaxial and stem from the lateral lip of the dermomyotomes. Various external signals converge on the dorsolateral quadrant of the somite to specify the hypaxial muscle precursors, to discriminate between migratory and non-migratory cells and to allow delamination of precursors destined for long-range migration. Within the somite, Pax3 acts as upstream regulator of hypaxial muscle development. Downstream targets are cMet and Lbx1, which may independently control identity, differentiation and motility of migratory muscle precursors. Received: 31 August 1998 / Accepted: 20 October 1998     

Location and biosynthesis of monoterpenyl fatty acyl esters in rose petals

The upper epidermal layer of cells and the epicuticular wax surface of Lady Seton rose petals are sites of biosynthesis and accumulation, respectively, of a family of terpenyl fatty acyl esters. These esters are based mainly on the acyclic monoterpene alcohol geraniol coupled primarily to fatty acids of chain lengths 16-20 and in mass terms represent from 14% to 64% of the total monoterpenes present in the petals. The lipophilic nature of these non-volatile esters of the monoterpene alcohols contrasts with that of the lipophilic volatile parent alcohols themselves and with the hydrophilic, non-volatile, glucoside derivative of the other principal petal fragrant compounds, the phenylpropanoids, beta-phenyl ethanol and benzyl alcohol. These latter compounds are also synthesised and are resident in the petal. Biosynthetic studies confirmed that the petal upper epidermal cell layer has the capacity to incorporate mevalonic acid into the monoterpene component of the fatty acyl ester. The biosynthesis of the monoterpene component of the fatty acyl ester occurs via the mevalonic acid pathway in Lady Seton as well as in the hybrid tea rose Fragrant Cloud. In the latter flower the biosynthesis of geraniol was biosynthetically trans as was the formation of nerol and citronellol. Both geraniol and nerol were shown to be precursors of citronellol via an NADPH dependent reductase reaction. Oleic acid is assimilated into the acyl moiety of the terpenyl ester in Lady Seton isolated petal discs. It is probable that the lipophilic non-volatile terpenyl fatty acyl esters represent a stable storage form of the corresponding alcohols from their residency within the epicuticular wax layer. These acyl esters may realise, on hydrolysis, additional aroma notes from the living flower and potentially commercially significant quantities of the fragrant terpenols during oil of rose essence production.     

Anticonflict effects of rose oil and identification of its active constituents

The present study investigates the pharmacologically active constituents of rose oil, which possesses anti-conflict effects. Analysis using GC/MS revealed that rose oil contains 9 substances that were identified as myrcene, benzyl alcohol, 2-phenethyl alcohol, citronellol, geraniol, citronellyl acetate, eugenol, geranyl acetate and methyl eugenol. We examined the effects of each of these substances using the Geller and Vogel conflict tests in ICR mice. Myrcene, benzyl alcohol and citronellyl acetate did not produce any effects in either tests. Geranyl acetate and methyl eugenol produced no effect in the Geller conflict test. Geraniol and eugenol decreased the response rate during the safe period of the Geller conflict test, but did not affect the response rate during the alarm period. In contrast, 2-phenethyl alcohol and citronellol, like rose oil, produced an increasing effect on the response rate during the alarm period in the Geller conflict test. In addition, both chemicals increased the number of electric shocks mice received in the Vogel conflict test in a manner similar to that of rose oil. Given that 2-phenethyl alcohol and citronellol produced the same anti-conflict effects in both tests as rose oil, we concluded that they are the pharmacologically active constituents of anti-anxiety-like effect of rose oil.     

Transformations of acetates of citronellol,geraniol, and linalool by Aspergillus niger: regiospecific hydroxylation of citronellol by a cell-free system

Summary Incubation of acetates of geraniol, citronellol and linalool with Aspergillus niger resulted in their hydrolysis to corresponding alcohols which were further hydroxylated to their respective 8-hydroxy derivatives. In the case of linalyl acetate, besides linalool and 8-hydroxylinalool, small amounts of geraniol and -terpineol were also formed. Microsomes (105 000xg sediment) prepared from induced cells of A. niger were found to convert (1-³H)citronellol to 8-hydroxy citronellol in the presence of NADPH and O₂. The pH optimum for the hydroxylase was found to be 7.6.     

Biosynthesis of monoterpenes in cymbopogon winterianus

The isotope ratios in geraniol, citronellol and citronellal biosynthesized in Cymbopogon winterianus from ³H- and ¹⁴C-labelled mevalonate indicate that geraniol is first converted into citronellol which in turn is converted into citronellal.     

Biotransformation of monoterpenes by Oocystis pusilla

The biotransformation of several monoterpenes by the locally isolated unicellular microalga, Oocystis pusilla was investigated. The metabolites were identified by thin layer chromatography and GC/MS. The results showed that O. pusilla had the ability to reduce the C=C double bond in (+)-carvone to yield trans-dihydrocarvone and traces of cis-dihydrocarvone. O. pusilla also converted (+)-limonene to trans-carveol, as the main product, and yielded carvone and trans-limonene oxide. Furthermore, (−)-linalool was converted to trans-furanoid and trans-pyranoid linalool oxide, thymol was converted to thymoquinone, (−)-carveol was converted to carvone and trans-dihydrocarvone, (−)-menthone and (+)-pulegone were converted to menthol, (L)-citronellal was converted to citronellol, and (+)-β-pinene was converted to trans-pinocarveol.     

T-DNA from Agrobacterium tumefaciens as an efficient tool for gene targeting in Kluyveromyces lactis

The soil bacterium Agrobacterium tumefaciens can transfer a part of its tumour-inducing (Ti) plasmid, the T-DNA, to plant cells. The virulence (vir) genes, also located on the Ti plasmid, encode proteins involved in the transport of T-DNA into the plant cell. Once in the plant nucleus, T-DNA is able to integrate into the plant genome by an illegitimate recombination mechanism. The host range of A. tumefaciens is not restricted to plant species. A. tumefaciens is also able to transfer T-DNA to the yeast Saccharomyces cerevisiae. In this paper we demonstrate transfer of T-DNA from A. tumefaciens to the yeast Kluyveromyces lactis. Furthermore, we found that T-DNA serves as an ideal substrate for gene targeting in K. lactis. We have studied the efficiency of gene targeting at the K. lactis TRP1 locus using either direct DNA transfer (electroporation) or T-DNA transfer from Agrobacterium. We found that gene targeting using T-DNA was at least ten times more efficient than using linear double-stranded DNA introduced by electroporation. Therefore, the outcome of gene targeting experiments in some organisms may depend strongly upon the DNA substrate used. Received: 11 May 1998 / Accepted: 16 October 1998     

Minor Constituents of Japanese Ho-Leaf Oil

The main component of Japanese Ho-leaf oil has been shown to be (?)-linalool (80~90%), and the following twenty minor constituents newly have been identified; methyl vinyl ketone, methyl isobutyl ketone, mesityl oxide, β-pinene, myrcene, (+)-limonene, cis- and trans-ocimene, n-hexanol, cis-3-hexenol, cis- and trans-linalool oxide, (?)-1-terpinen-4-ol, (+)-cis and (+)-trans-2,6,6-trimethyl-2-vinyl-5-hydroxytetrahydropyran, citronellol, nerol, (+)-β-selinene, (+)-tagetonol and (?)-trans-hotrienol. (+)-Tagetonol and (?)-trans-hotrienol have been demonstrated to be (+)-3,7-dimethyl-3-hydroxy-1-octen-5-one (III) and (3R)-(?)-trans-3,7-dimethyl-3-hydroxy-1,5,7-octatriene (IX), respectively.     

Plant protection in sustainable systems of agriculture

Abstract

A comprehensive evaluation of 13 plant essential oils namely: caraway, chenopodium, cinnamon, clove, eucalyptus, garlic, geranium, lemon, matrecary, peppermint, rose, rosemary and thyme and 14 of their monoterpenoidal constituents: borneol, camphor, carvacrol, carveol, carvone (R and S), chlorothymol, cineol, cinnamaldehyde, citronellol, eugenol, geraneol, menthol, and thymol was investigated for their antibacterial activity against the two phytopathogenic bacteria, Agrobacterium tumefaciens and Erwinia carotovora var carotovora. Trials for improving the antibacterial activity by either structure modification or mixing with the three synergists: piperonyl butoxide, Triton X-100 and Tween 20 were achieved. New N-methyl carbamate derivatives based on monoterpenoids were introduced. Cinnamon, clove, chenopodium, caraway, rosemary and thyme oils proved to possess good antibacterial activity. Thymol, chlorothymol, and carvacrol were potent against the tested bacteria and quite close to the effect of the standard. Conversion of menthol into its carbamate derivative gave good enhancement in the bactericidal activity at all concentrations compared to menthol itself. Also, the carbamate derivatives of β-citronellol and borneol improved the bactericidal activity against E. carotovora, but decreased it against A. tumefaciens. Synergistic antibacterial activity of the tested monoterpenoids was observed when combined with each of the three synergists particularly with Triton X-100.     

Chemoenzymatic epoxidation of citronellol catalyzed by lipases

The chemoenzymatic epoxidation of a terpene alcohol, citronellol, is reported. Some experimental conditions, such as the use of lipases from different sources, oxidizing agents (H₂O₂ or urea–hydrogen peroxide, UHP), reaction time, acyl donor type (C6–C16), temperature (15–40 °C) and the influence of organic media, were evaluated. In most cases, citronellol oxide 2 or the ester citronellol oxide 3 were obtained. Depending on the reaction conditions, high yields of products 2 or 3 were obtained (>99%). CAL-B was the most effective catalyst in this reaction. For epoxide 2, the highest yields of 80% and 77% were obtained at 20 °C and 25 °C, respectively, using UHP as an oxidizing agent and octanoic acid as an acyl donor. The organic medium appears to be one of the most important parameters in the reaction. Using chloroform or dichloromethane, product 2 was obtained at a >99% yield after 24 h. When different mixtures consisting of varied organic solvents and an imidazolium-based ionic liquid (IL) were used, the results were dependent on both the solvent and IL counter-ion (18–75%).     

Chemical diversity and variation of pyrrolizidine alkaloids of the senecionine type: biological need or coincidence?

Laboratory and field tracer experiments with ¹⁴C-labelled senecionine N–oxide (SO) and distant biosynthetic precursors such as [¹⁴C]putrescine revealed that pyrrolizidine alkaloid N-oxides (PAs) in Senecio vernalis Waldstr. & Kit. (Asteraceae) show no significant turnover over periods of up to 29 d. However, PAs are spatially mobile, they are continuously allocated, and labelled PAs are even detectable in leaves and capitula developed weeks after tracer application. Chemical diversification of SO, the common product of PA biosynthesis in roots, was studied in five Senecio species (i.e. S. vernalis Waldstr. & Kit., S. vulgaris L, S. inaequidens DC, two chemotypes of S. jacobaea L. and S. erucifolius L.). Tracer experiments revealed that shoots are capable of transforming [¹⁴ C]SO into the unique species–specific PA patterns. Within a plant, the transformation efficiency of SO can vary quantitatively and qualitatively between shoot organs (i.e. leaves, stems and inflorescences). All transformations proceed position-specifically and stereoselectively. They comprise simple one-step or two-step reactions such as hydroxylations, epoxidations, dehydrogenations, and O-acetylations, as well as the more complex conversion of the retronecine into the otonecine base moiety (e.g. SO into senkirkine). Taking all the evidence together, the qualitative and quantitative composition of the Senecio PA pattern is a dynamic and sensitive equilibrium between a number of interacting processes: (i) constant rate of de-novo synthesis of SO in roots, (ii) continuous long-distance translocation of SO into shoots, (iii) efficiency of SO transformations which may vary between plant organs, (iv) continuous allocation of PAs in the plant, and (v) efficiency and tissue selectivity of vacuolar storage. We suggest that in constitutive plant defence, without significant turnover of its components, such a highly plastic system provides a powerful strategy to successfully defend and possibly escape herbivory. Received: 27 March 1998 / Accepted: 19 May 1998     

香叶油的化学成分

为了探讨不同产地香叶油的香气特徵,我们对云南省昆明、玉溪、石屏、宾川产香叶油和法国波尔蓬,埃及产香叶油的化学成分用Finnigan-4510型气相色谱/质谱/计算机联用方法进行了定性、定量分析,共分离鉴定了35个成分(见表2)。 分析结果表明:云南产香叶油的香气成分主要由香茅醇,甲酸香茅酯,香叶醇,玫瑰醚构成;而法国、埃及产香叶油的香气成分则主要由香叶醇,甲酸香叶酯,香茅醇,甲酸香茅酯和芳樟醇构成。二者具有不同的格调和香气特徵。     

Citronellol and Geraniol,Components of Rose Oil,Activate Peroxisome Proliferator-Activated Receptor α and γ and Suppress Cyclooxygenase-2 Expression

We evaluated the effects of rose oil on the peroxisome proliferator-activated receptor (PPAR) and cyclooxygenase-2 (COX-2). Citronellol and geraniol, the major components of rose oil, activated PPARα and γ, and suppressed LPS-induced COX-2 expression in cell culture assays, although the PPARγ-dependent suppression of COX-2 promoter activity was evident only with citronellol, indicating that citronellol and geraniol were the active components of rose oil.     

Distribution and accumulation of storage protein-1 in ovary of Hyphantria cunea Drury

Storage protein-1 (SP-1) is a major storage protein found in the hemolymph and fat body of Hyphantria cunea. In this study, the uptake and accumulation of SP-1 into the ovary of H. cunea was investigated using biochemical and immunocytochemical methods. SP-1 in H. cunea has a high methionine content (4.6%) but is not female-specific, like other high methionine storage proteins. In the 6-day-old pupal ovary, SP-1 was detectable in trace amounts but accumulated to significant levels toward the end of the pupal stage. After adult emergence, SP-1 rapidly decreased in the ovarian follicles and remained low in the egg. This suggest that SP-1 is either extensively modified or degraded, causing a loss of its antigenic property in the ovary after adult emergence. During vitellogenesis, SP-1 is present in the hemolymph and penetrates through the tunica propria to reach the perioocytic space. From there, SP-1 is incorporated into yolk bodies. These results clearly show that SP-1 is taken up by the developing oocyte. Its disappearance suggests that SP-1 might be an amino acid reservoir for providing precursors for egg formation, in contrast to yolk proteins, which are utilized during postembryonic development. Arch. Insect Biochem. Physiol. 37:115–128, 1998. © 1998 Wiley-Liss, Inc.     

Citronellol and geraniol, components of rose oil, activate peroxisome proliferator-activated receptor α and γ and suppress cyclooxygenase-2 expression

We evaluated the effects of rose oil on the peroxisome proliferator-activated receptor (PPAR) and cyclooxygenase-2 (COX-2). Citronellol and geraniol, the major components of rose oil, activated PPARα and γ, and suppressed LPS-induced COX-2 expression in cell culture assays, although the PPARγ-dependent suppression of COX-2 promoter activity was evident only with citronellol, indicating that citronellol and geraniol were the active components of rose oil.