Search results for "monoterpene"

showing 10 items of 145 documents

Polar organic marker compounds in PM2.5 aerosol from a mixed forest site in western Germany

2008

The molecular composition of PM2.5 (particulate matter with an aerodynamic diameter2.5 microm) aerosol samples collected during a very warm and dry 2003 summer period at a mixed forest site in Jülich, Germany, was determined by gas chromatography/mass spectrometry in an effort to evaluate photooxidation products of biogenic volatile organic compounds (BVOCs) and other markers for aerosol source characterization. Six major classes of compounds represented by twenty-four individual organic species were identified and measured, comprising tracers for biomass combustion, short-chain acids, fatty acids, sugars/sugar alcohols, and tracers for the photooxidation of isoprene and alpha-/beta-pinene.…

Environmental EngineeringHealth Toxicology and MutagenesisCarbohydratescomplex mixturesGas Chromatography-Mass SpectrometryTreesBridged Bicyclo Compoundschemistry.chemical_compoundHemiterpenesGermanyPentanesButadienesEnvironmental ChemistryVolatile organic compoundBiomassOrganic ChemicalsChemical compositionBicyclic MonoterpenesAerosolschemistry.chemical_classificationPhotolysisChemistryPharmacology. TherapyLevoglucosanFatty AcidsPublic Health Environmental and Occupational HealthGeneral MedicineGeneral ChemistryParticulatesPollutionAerosolChemistryHydrocarbonPyrogallolEnvironmental chemistryMonoterpenesParticulate MatterAcids AcyclicMalic acidVolatilizationOxidation-ReductionChemosphere
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CommercialOriganum compactumBenth. andCinnamomum zeylanicumBlume essential oils against natural mycoflora in Valencia rice

2015

Chemical composition of commercial Origanum compactum and Cinnamomum zeylanicum essential oils and the antifungal activity against pathogenic fungi isolated from Mediterranean rice grains have been investigated. Sixty-one compounds accounting for more than 99.5% of the total essential oil were identified by using gas chromatography (GC) and gas chromatography-mass spectrometry (GC-MS). Carvacrol (43.26%), thymol (21.64%) and their biogenetic precursors p-cymene (13.95%) and γ-terpinene (11.28%) were the main compounds in oregano essential oil, while the phenylpropanoids, eugenol (62.75%), eugenol acetate (16.36%) and (E)-cinnamyl acetate (6.65%) were found in cinnamon essential oil. Both es…

FusariumAntifungal AgentsCinnamomum zeylanicumCyclohexane MonoterpenesMicrobial Sensitivity TestsPlant ScienceBiochemistryGas Chromatography-Mass SpectrometryAnalytical Chemistrylaw.inventionchemistry.chemical_compoundAscomycotaFusariumlawOriganumEugenolBotanyOils VolatilePlant OilsCarvacrolFood scienceThymolEssential oilMyceliumbiologyOrganic ChemistryAlternariafood and beveragesOryzabiology.organism_classificationCinnamomum zeylanicumEugenolchemistryCinnamatesMonoterpenesCymenesGas chromatographyNatural Product Research
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De novo production of six key grape aroma monoterpenes by a geraniol synthase-engineered S. cerevisiae wine strain

2015

[Background] Monoterpenes are important contributors to grape and wine aroma. Moreover, certain monoterpenes have been shown to display health benefits with antimicrobial, anti-inflammatory, anticancer or hypotensive properties amongst others. The aim of this study was to construct self-aromatizing wine yeasts to overproduce de novo these plant metabolites in wines.

GeraniolWine aromaMonoterpeneAroma of wineGeranyl acetateBioengineeringWineSaccharomyces cerevisiaeBiologyApplied Microbiology and Biotechnologychemistry.chemical_compoundLinaloolNerolVitisFood sciencePlant ProteinsWineCitronellolResearchfungidigestive oral and skin physiologyfood and beveragesPhosphoric Monoester HydrolasesRecombinant ProteinsMonoterpene bioconversionchemistryBiochemistryFermentationOdorantsOcimum basilicumMonoterpenesSelf-aromatizing wine yeastsGeraniol synthaseMetabolic engineeringGeraniolBiotechnology
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Germacranolides and a monoterpene cyclic peroxide from Artemisia fragrans

1998

Abstract The aerial parts of Artemisia fragrans collected in Armenia yielded a new cyclic monoterpene peroxide with the irregular santolinyl framework, together with several known germacranolides. Comparison with previously published chemical results suggests these may actually have been performed on a different, although closely related species.

GermacranolideCyclic compoundbiologyChemistryStereochemistryMonoterpenePlant ScienceGeneral MedicineHorticulturebiology.organism_classificationBiochemistryArtemisia fragransPeroxidechemistry.chemical_compoundAnthemideaeOrganic chemistryMolecular BiologyPhytochemistry
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Biotransformations of monoterpenes by photoautotrophic micro-organisms.

2014

Summary Monoterpenes are widely used in food technology, cosmetic and pharmaceutical industries and as compounds of agricultural importance. It is known that compounds comprising this class can be transformed by a variety of organisms, namely by: bacteria, fungi, yeasts, plants or isolated enzymes. Biotransformations, as one of the most important tools of green chemistry, allow obtaining new products using whole cells of micro-organisms or isolated enzymes in mild reaction conditions. Therefore, biotransformations of monoterpenes, by different type of reaction such as: epoxidation, oxidation and stereoselective hydroxylation, resulted in the production of so desired, enantiomerically define…

Green chemistryCyanobacteriaFood industryFood technologyCyanobacteriaApplied Microbiology and BiotechnologyHydroxylationchemistry.chemical_compoundBiotransformationBotanyMicroalgaeOrganic chemistryblue-green algaeBiotransformationAutotrophic ProcessesBicyclic moleculebiologybusiness.industryGeneral Medicinebiology.organism_classificationPhototrophic ProcesseschemistryMonoterpenesbusinessBacteriaBiotechnologyJournal of applied microbiology
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Identification of highly effective antitrypanosomal compounds in essential oils from the Apiaceae family

2018

The Apiaceae family encompasses aromatic plants of economic importance employed in foodstuffs, beverages, perfumery, pharmaceuticals and cosmetics. Apiaceae are rich sources of essential oils because of the wealth of secretory structures (ducts and vittae) they are endowed with. The Apiaceae essential oils are available on an industrial level because of the wide cultivation and disposability of the bulky material from which they are extracted as well as their relatively cheap price. In the fight against protozoal infections, essential oils may represent new therapeutic options. In the present work, we focused on a panel of nine Apiaceae species (Siler montamon, Sison amomum, Echinophora spi…

Human African trypanosomiasiAlkeneApiaceae; BALB/3T3; Essential oils; Human African trypanosomiasis; Trypanosoma brucei; 3T3 Cells; Alkenes; Animals; Apiaceae; Benzyl Compounds; Cyclohexenes; Dioxolanes; Inhibitory Concentration 50; Mice; Monoterpenes; Oils Volatile; Plant Oils; Pyrogallol; Terpenes; Trypanosoma brucei brucei; Trypanosomiasis; Pollution; Public Health Environmental and Occupational Health; Health Toxicology and MutagenesisHealth Toxicology and Mutagenesis[SDV]Life Sciences [q-bio]VolatileMonoterpeneAllylbenzene DerivativesPlant Oil01 natural sciencesCosmeticsEssential oilTerpenechemistry.chemical_compoundMiceTrypanosoma bruceiBALB/3T3media_commonBicyclic Monoterpenes2. Zero hungerbiologyTraditional medicineChemistryBenzyl CompoundsDioxolanesGeneral Medicine3T3 CellsPollutionHealthEssential oilsTerpeneIdentification (biology)Public HealthDioxolaneCyclohexenesmedia_common.quotation_subjectAcyclic MonoterpenesApiaceae; BALB/3T3; Essential oils; Human African trypanosomiasis; Trypanosoma brucei; 3T3 Cells; Alkenes; Animals; Apiaceae; Benzyl Compounds; Cyclohexenes; Dioxolanes; Inhibitory Concentration 50; Limonene; Mice; Monoterpenes; Oils Volatile; Plant Oils; Pyrogallol; Terpenes; Trypanosoma brucei brucei; TrypanosomiasisTrypanosoma brucei bruceiCyclohexane MonoterpenesTrypanosoma bruceiAlkenesPyrogallolInhibitory Concentration 50TrypanosomiasisBenzyl CompoundsCyclohexenesOils VolatileCyclohexeneAnimalsPlant OilsToxicology and Mutagenesis3T3 CellApiaceaeAnimal010405 organic chemistryTerpenesEnvironmental and Occupational HealthHuman African trypanosomiasisPublic Health Environmental and Occupational Healthbiology.organism_classification0104 chemical sciences010404 medicinal & biomolecular chemistryPyrogallolMonoterpenesCymenesBenzyl CompoundOilsLimoneneApiaceae
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Headspace Volatile Composition of the Flowers of Caralluma europaea N.E.Br. (Apocynaceae)

2009

The volatile constituents of the flowers of Caralluma (Apteranthes) europaea (Guss.) N.E. Br. (Apocynaceae - Asclepiadoideae) from Lampedusa Island were analyzed by headspace method. The analyses allowed the identification and quantification of 41 compounds. The main components were, among the monoterpenoids, terpinolene (23.3%), a-terpinene (19.1%) and linalool (18.4%), whereas, among the carbonylic compounds the major constituents were heptanal (2.0%), octanoic acid (2.4%) and hexanoic acid (1.7%). It is worth to mention the presence of a nitrogen containing compound, indole (0.8%) and of a sulphur containing compound, dimethylsulphide (t). The compounds found in the flowers of C. europea…

IndolespollinationPharmaceutical ScienceHymenopteraAnalytical Chemistrychemistry.chemical_compoundLinaloolDrug Discovery<em>Caralluma europaea</em>; <em>Apteranthes europaea</em>; Diptera; pollination; sapromyiophily; volatilesHexanoic acidchemistry.chemical_classificationApocynaceaevolatilesChemistry (miscellaneous)Molecular MedicineComposition (visual arts)CaprylatesSettore BIO/07 - EcologiaChromatography GasAcyclic MonoterpenesCyclohexane MonoterpenesFlowersBiologySulfidesArticleSettore CHIM/12 - Chimica Dell'Ambiente E Dei Beni CulturaliLepidoptera genitalialcsh:QD241-441lcsh:Organic chemistryBotanyOrganic matterPhysical and Theoretical ChemistryCaproatesCaralluma europaea; Apteranthes europaea; Diptera; pollination; sapromyiophily; volatilesAldehydesVolatile Organic CompoundsPlant ExtractsTerpenesDipteraOrganic ChemistrySettore CHIM/06 - Chimica Organicabiology.organism_classificationApocynaceaechemistryOdorsapromyiophilyCaralluma europaeaSettore BIO/03 - Botanica Ambientale E ApplicataMonoterpenesApteranthes europaea
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Can herbivore-induced volatiles protect plants by increasing the herbivores’ susceptibility to natural pathogens?

2018

In response to insect herbivory, plants mobilize various defenses. Defense responses include the release of herbivore-induced plant volatiles (HIPVs) that can serve as signals to alert undamaged tissues and to attract natural enemies of the herbivores. Some HIPVs can have a direct negative impact on herbivore survival, but it is not well understood by what mechanisms. Here, we tested the hypothesis that exposure to HIPVs renders insects more susceptible to natural pathogens. Exposure of the caterpillars of the noctuid Spodoptera exigua to indole and linalool, but not exposure to (Z)-3-hexenyl acetate, increased the susceptibility to Spodoptera exigua multiple nucleopolyhedrovirus (SeMNPV). …

Integrated pest managementFood ChainIndolesAcyclic Monoterpenesmedia_common.quotation_subjectBacillus thuringiensisInsect580 Plants (Botany)AcetatesSpodopteraGut floraSpodopteraApplied Microbiology and Biotechnology03 medical and health scienceschemistry.chemical_compoundLinaloolBacillus thuringiensisExiguaBotanyInvertebrate MicrobiologyAnimalsHerbivorymedia_common0303 health sciencesVolatile Organic CompoundsHerbivoreLarvaEcologybiology030306 microbiologyfungifood and beveragesbiology.organism_classificationchemistryLarvaMonoterpenesFood ScienceBiotechnology
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Enhanced levels of S-linalool by metabolic engineering of the terpenoid pathway in spike lavender leaves

2013

Transgenic Lavandula latifolia plants overexpressing the linalool synthase (LIS) gene from Clarkia breweri, encoding the LIS enzyme that catalyzes the synthesis of linalool were generated. Most of these plants increased significantly their linalool content as compared to controls, especially in the youngest leaves, where a linalool increase up to a 1000% was observed. The phenotype of increased linalool content observed in young leaves was maintained in those T1 progenies that inherit the LIS transgene, although this phenotype was less evident in the flower essential oil. Cross-pollination of transgenic spike lavender plants allowed the generation of double transgenic plants containing the …

LavenderAcyclic MonoterpenesLavandulaTransgeneLavandula latifoliaBioengineeringGenetically modified cropsClarkiaBiologyApplied Microbiology and Biotechnologylaw.inventionchemistry.chemical_compoundLinaloollawBotanyTransgenesHydro-LyasesEssential oilPlant ProteinsPlants Genetically Modifiedbiology.organism_classificationTerpenoidPlant LeavesErythritolLavandulachemistryMonoterpenesSugar PhosphatesBiotechnologyMetabolic Engineering
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Chemical Composition of Two Different Lavender Essential Oils and Their Effect on Facial Skin Microbiota

2019

Lavender oil is one of the most valuable aromatherapy oils, its anti-bacterial and anti-fungal activities can be explained by main components such as linalool, linalyl acetate, lavandulol, geraniol, or eucalyptol. The aim of the study was to assess the anti-microbial effects of two different lavender oils on a mixed microbiota from facial skin. The commercial lavender oil and essential lavender oil from the Crimean Peninsula, whose chemical composition and activity are yet to be published, were used. Both oils were analysed by gas chromatography coupled to mass spectrometry. The composition and properties of studied oils were significantly different. The commercial ETJA lavender oil contain…

LavenderAcyclic Monoterpenesgas chromatography with mass spectrometryPharmaceutical ScienceLavender oilMicrobial Sensitivity Tests02 engineering and technologyLinalyl acetateGram-Positive Bacteria01 natural sciencesArticleGas Chromatography-Mass SpectrometryAnalytical Chemistrylcsh:QD241-441chemistry.chemical_compoundlcsh:Organic chemistryLinaloolGram-Negative BacteriaDrug DiscoveryOils Volatilelavender essential oilHumansPlant OilsFood sciencePhysical and Theoretical ChemistrySkinChemistryOrganic Chemistry021001 nanoscience & nanotechnologyAnti-Bacterial Agents0104 chemical sciences010404 medicinal & biomolecular chemistryLavandulaEucalyptolChemistry (miscellaneous)FaceMonoterpenesMolecular Medicine0210 nano-technologyLavandulolGeraniolfacial skin microbiotaAromatherapyMolecules
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