不同品种、不同花期的依兰花精油成分研究

为探讨依兰花精油的香气质量,我们对云南省西双版纳产依兰花精油以及引种栽培于西双版纳的泰国种、老挝种的依兰花精油的化学成分在Finnigan-4510 GC/MS/DS上用毛细管柱进行了定性和定量分析,鉴定了44个化学成分。分析结果表明,依兰油的香气与品种及精油中的酯类、醇类和酚醚的含量有关。倍半萜烯类和倍半萜醇类的含量越高,其香气质量越差。就西双版纳产依兰油的香气而言,依兰花由青转黄时得到的精油远较绿花和花蕾油为好。     

依兰花精油的香气成分

云南省西双版纳产依兰油,用Finnigan-4510型毛细管气相色谱/质谱/计算机联用方法进行了化学成分分析,共分离检出了50个成分,鉴定了其中22个成分,占全精油的95.27％。主要成分为:β-丁香烯(33.00％),γ-穆罗烯(19.82％)。α-(艹律)草烯(7.69％),乙酸香叶酯(6.21％),香柠檬烯(5.40％),苯甲酸苄酯(5.33％),金合欢醇(4.75％),金合欢烯(3.29％),香叶醇(2.48％),对甲酚甲醚(2.41％)。并讨论了如何提高国产依兰油质量的问题。     

矮依兰油化学成份分析

采用色谱—质谱—计算机(GC/MS)联用分析仪对矮依兰油、高依兰油和进口依兰油的主要化学成份进行了鉴定,尽管它们的成份及其含量有较大差异,但其整体香气特征无明显的差异,均可用作调香原料。     

几种芸香科柑桔类精油的化学成分与香气的研究

采用ＧＣ／ＭＳ分析方法,定性定量地分析了香柠檬油、柠檬油、甜橙油、柚子皮油、蒸馏桔子油、冷榨桔子油、野香橼叶油、野香橼果油的化学成分。它们的主要成分及含量各不相同,其香气各具特色。本文还讨论了精油中单萜类化合物、葛缕醇、酮类化合物、香茅醛、孟烯醇类化合物对精油品质及香气的影响,也为野香橼叶油、果油及柚子皮油的应用提供理论依据。     

不同产地的千只眼精油化学成分的比较研究

云南省易门、通海和建水产的千只眼(Murraya tetramera Huang)枝叶分别经水蒸汽蒸馏得到精油,以气相色谱-质谱-计算机联用方法进行了定性、定量分析,共鉴定了27个化学成分。从易门产的千只眼精油中分离鉴定了21个化合物,为精油含量的99.69％;从通海产的千只眼精油中分离鉴定了18个化合物,为精油含量的99.44％;从建水产的千只眼精油中鉴定了20个化合物,为精油含量的99.72％。这些成分除石竹烯为倍半萜外,其余化合物都属于单萜或其含氧衍生物。三个产地的千只眼精油中都含主成分柠檬烯和紫苏醛。     

中国南方不同地区薰衣草花精油化学成分分析

为了解不同产地薰衣草(Lavandula angustifolia Mill.×Lavandula latifolia Medik.)鲜花精油的化学成分,采用水蒸气蒸馏法提取了产自濮院、厦门、昆明的薰衣草花精油,并用GC-MS方法对其化学成分及相对含量进行了分析。结果表明,三地薰衣草花精油的得油率分别为6.60%、3.07%、3.17%。精油中分别检出50、59、44个化合物,其中4个化合物(桉叶油醇、α-红没药醇、樟脑和芳樟醇)的相对含量占精油总量的75%以上。三地薰衣草花精油中的主要化学成分相同,但含量不同,且精油的组成成分也存在差异。此外,薰衣草精油中的桉叶油醇、樟脑及α-红没药醇的相对含量与海拔及年均降雨量具有一定相关性。     

不同提取方法对桂花精油品质的影响

用超临界流体萃取法(SCFE)、可食用石油醚和酒精抽提蒸馏三种不同的抽提方法,提取了咸宁桂花品种——银星的花精油;气质联用(GC-MS)分析不同方法提取精油的香气成分及其相对含量。结果表明:SCFE提取的精油得率最高(0.19%),紫罗兰酮、醇类的相对含量高达36.99%;石油醚浸提结果次之(0.13%),酒精抽提法不可取(0.07%)。     

福建省不同产地及不同生育期土荆芥精油化学成分的比较

采用气相色谱-质谱联用技术(GC-MS),对来源于福建省不同产地(福州新店镇、平潭县城关、连城县城关)以及不同生育期(苗期、生长期、果熟期)土荆芥(Chenopodium ambrosioides L. )地上部分精油的化学成分及其相对含量进行了比较分析.结果表明,福州新店镇、平潭县城关和连城县城关产土荆芥精油的主要化学成分(相对含量0.04%以上)分别有12、11和27种,3个产地的共有成分为11种;福州新店镇产土荆芥精油中相对含量较高的成分有对-聚伞花素(49.60%)、α-松油烯(26.81%)和异驱蛔素(8.16%)等,平潭县城关产精油中相对含量排在前3位的成分也为对-聚伞花素(47.25%)、α-松油烯(27.27%)和异驱蛔素(8.82%),连城县城关产精油中相对含量较高的成分有对-聚伞花素(36.33%)、2,5-二甲基-3-己炔-2,5-二醇(20.03%)、α-松油烯(12.71%)和异驱蛔素(3.07%)等.苗期、生长期和果熟期土荆芥精油的主要成分分别有17、12和12种,3个时期的共有成分为10种;苗期精油中相对含量较高的成分有对-聚伞花素(49.75%)、异驱蛔素(10.77%)、1-(1,3-二甲基-3-环己烯-1-基)乙酮(8.08%)和2,5-二甲基-3-己炔-2,5-二醇(7.79%)等;生长期精油中相对含量较高的成分有对-聚伞花素(49.60%)、α-松油烯(26.81%)和异驱蛔素(8.16%)等;果熟期精油中相对含量较高的成分有对-聚伞花素(43.65%)、α-松油烯(24.09%)和异驱蛔素(19.12%)等.研究结果显示,产地的地理环境和土荆芥的生育期对福建产土荆芥地上部分精油的化学成分及其相对含量均有一定的影响.     

蕈树叶芳香精油成分分析及其抗氧化活性研究

为了解蕈树叶芳香精油化学组分及抗氧化活性,采用气相色谱-质谱联用技术(GC-MS)结合Kovats保留指数(K I)比较的方法对其进行了成分分析,并运用二种体外方法对其抗氧化活性进行了测定。结果表明蕈树叶精油以倍半萜烯类为主(占62.39%),主要特征成分为双环大根香叶烯(10.71%)、(E)-丁香烯(9.96%)和α-依兰油烯(8.92%)。该精油具有中等程度的自由基清除活性和抗脂质过氧化活性。其抗氧化活性可能与精油中的酚类物质5-羟基白菖莆烯(2.97%)以及醇类物质1-表橙椒醇(3.12%)和(Z)-白檀油烯醇(2.12%)等化合物有关。     

云南野香橼叶油的化学成分

云南省盈江县产野香橼(Citrus medica L.)叶油,用Finnigan-4510型毛细管气相色谱/质谱/计算机联用方法进行了化学成分分析、共检出了31个成分,鉴定了其中22个成分,占全精油的98.5％,主要成分为柠檬烯(56.63％),橙花醛(8.18％),香叶醛(13.52％),对一聚伞花素(3.92％),乙酸香叶酯(2.34％),甲基庚烯酮和月桂烯(3.26％)等。该油具有特征的柠檬—柑桔香气,适宜于调配果香和化妆香精。     

Chemical Composition and Biological Activities of the Essential Oil from Leaves and Flowers of Pulicaria incisa sub. candolleana (Family Asteraceae)

The composition of the essential oil isolated from leaves and flowers of Pulicaria incisa sub. candolleana E. Gamal ‐Eldin , growing in Egypt, was analysed by GC and GC‐MS. Forty‐nine and 68 compounds were identified from the oils of the leaves and flowers accounting for 86.69 and 84.29%, respectively of the total detected constituents. Both leaves and flowers oils were characterized by the high content of carvotanacetone with 66.01, 50.87 and chrysanthenone 13.26, 24.3%, respectively. The cytotoxic activity of both essential oils was evaluated against hepatocellular carcinoma cell line HEPG‐2, using MTT assay and vinblastine as a reference drug. Leaf oil showed higher activity with IC₅₀ 11.4 μg/ml compared with 37.4 μg/ml for flower oil. The antimicrobial activity of both oils was evaluated using agar well diffusion method towards two representatives for each of Gram positive and Gram negative bacteria as well as four representatives for fungi. The minimum inhibitory concentration of both essential oils against bacterial and fungal strains was obtained in the range of 0.49 – 15.63 μg/ml.     

Essential oil composition and variability of Hypericum perforatum L. growing in Lithuania

The composition of essential oils obtained from flowers and leaves in 11 accessions of Hypericum perforatum L. was analysed by GC and GC–MS. All the analysed oils were dominated by their oxygenated sesquiterpene fraction. Differences were attributed to the main components: caryophyllene oxide, spathulenol and viridiflorol. There were only a few monoterpenes in essential oil of all accessions. The data indicated some differences in sesquiterpene and aliphatic hydrocarbons, as well as in oxygenated aliphatics biosynthesis in flowers and leaves. The concentrations of β-caryophyllene and caryophyllene oxide in essential oils from leaves were higher than those from flowers, whereas dodecanol, spathulenol, viridiflorol, carotol and tetradecanol were present in higher quantities in flowers. Cluster analysis of all identified components grouped oils from flowers and from leaves into three clusters that corresponded with their major components: caryophyllene oxide, tetradecanal, tetradecanol and manool. Chemical variability of the analysed accessions seems likely to result from the genetic variability, since the influence of different environmental factors has been eliminated.     

上思瓜馥木精油的化学成分

上思瓜馥木(Fissistigma shantzeense Tsiang et P. T. Li)系番荔枝科瓜馥木属植物,分布于广西和云南西南部,鲜花具有浓郁的香气。为开发利用这一香料资源提供依据,我们对其化学成分进行了分析。     

Essential oil variation within and among natural populations of Lavandula latifolia and its relation to their ecological areas

Essential oil yield and composition in seven natural populations of Lavandula latifolia from the eastern Iberian Peninsula were determined by GC/MS. Twenty-eight constituents were identified, accounting for 92.0–95.4% of the total oils. These oils were dominated by the monoterpene fraction and three of them (linalool, cineole and camphor) constituted 79.5–86.9% of the oil from flowers. Essential oil yield in leaves and flowers varied among and within populations, but hierarchic analyses of variance showed that the proportion of variation attributable to individuals was significantly higher than that attributable to population differences. Principal component and cluster analyses allowed three groups of flower essential oils to be distinguished according to their high, intermediate and low proportion of linalool. These essential oil types are respectively correlated to the Supra-, Meso- and Thermo-Mediterranean bioclimatic belts where the populations are located. A genetic analysis based on those terpenes that showed a trimodal distribution roughly corroborated the relationships between the seven populations obtained from the ordination analyses and emphasizes the distinctiveness of some of the populations.     

Diversity of Essential Oil-Secretory Cells and Oil Composition in Flowers and Buds of Magnolia sirindhorniae and Its Biological Activities

Magnolia sirindhorniae Noot. & Chalermglin produces fragrant flowers. The volatile oil secretary cells, quantity and quality as well as antioxidant and antimicrobial activities of the oils extracted from buds and flowers, have been investigated. The distribution of essential oil secretory cell in bud and flower revealed that the density and size of the oil cells were significantly higher in flowers compared to buds. In different floral parts, carpel has a higher oil cell density followed by gynophore and tepal. The histochemical analysis revealed the essential oil is synthesized in oil secretory cells. The volatile oil yield was 0.25 % in the buds and 0.50 % in flowers. GC/FID and GC/MS analysis identified 33 compounds contributing 83.2–83.5 % of the total essential oil composition. Linalool is the main constituent contributing 58.9 % and 51.0 % in the buds and flowers oils, respectively. The essential oil extracted from the flowers showed higher antimicrobial efficacy against Klebsiella pneumoniae and Staphylococcus aureus. Similarly, the essential oil isolated from the flowers depicts higher free radical scavenging, and antioxidant activity compared to buds’ oil.     

The essential oil of greater galanga (Alpinia galanga) from Malaysia

The essential oil of A. galanga, a common spice in Malaysia, was prepared from fresh and dried rhizomes and analysed by means of capillary GC and GC/MS. Forty components were identified (only three of which were previously reported), accounting for 83–93% of the oil, depending on its method of preparation. Apart from monoterpenes, monoterpene alcohols and esters, and sesquiterpenes, also methyleugenol, eugenol acetate, chavicol (4-allylphenol) and chavicol acetate were present. This is the first time the latter substance has been reported in nature. Standardization of GC is proposed and tentatively applied towards a more systematic use of the Kováts indices as an aid in the identification of the constituents of essential oils.     

The Essential Oils and Glandular Hairs in Different Chemotypes of Origanum vulgare L.

Leaves and flowers of four chemotypes of Origanum vulgare L.were examined for the main components of their essential oiland for the types and distribution of their glandular hairs.Two varieties have high phenol content, one thymol and the othercarvacrol, in their essential oils; one has a moderate thymolcontent and the fourth has a low phenol content and a high alcoholcontent. The percentage of essential oil and the number of peltatehairs were higher in the flowers than in the leaves, the highestbeing in the flowers of a chemotype with a high phenol (thymol)concentration. While there were no differences in structureof the peltate and two types of capitate hairs between chemotypes,the density of the peltate hairs varied and appeared to be correlatedwith the total essential oil content. Origanum vulgare L., essential oils, glandular hairs     

几种典型植物精油的化学成分与其抗菌活性

【目的】植物精油萃取自天然植物, 因具有抗菌活性, 近年来受到广泛关注。论文的目的是分析植物精油的化学成分, 测试其抗菌活性, 并研究其化学成分与抗菌活性之间的联系。【方法】实验选取了肉桂、山苍子、丁香、香茅、迷迭香和大蒜精油等6种典型植物精油, 通过气质联用分析方法研究了其化学组分, 并通过污染食物技术研究了其对黑曲霉和绳状青霉的抗真菌活性, 以及对大肠杆菌和金黄色葡萄球菌的抗细菌活性。【结果】气质联用分析结果表明, 肉桂、山苍子、香茅和迷迭香等4种植物精油的化学成分主要是醛类和醇类, 丁香精油的主要化学成分是丁香油酚, 大蒜精油化学成分基本上都是含硫的醚类, 其中二烯丙基三硫醚(大蒜素)含量最高。抗菌活性结果显示, 不同植物精油的抗菌活性不同, 6种植物精油的抗真菌活性由强到弱依次为: 肉桂>大蒜>丁香>山苍子=香茅>迷迭香, 抗细菌活性由强到弱依次为: 肉桂>山苍子>丁香>香茅=迷迭香>大蒜。【结论】植物精油的抗真菌、细菌活性与其化学组分密切相关, 肉桂、山苍子、香茅和迷迭香等4种精油的抗菌活性可能主要与其化学成分中的醛类和醇类有关, 丁香精油较高的抗菌活性可能主要源于丁香油酚; 大蒜精油具有高效的抗真菌活性主要源于其化学成分中的含硫醚。不同植物精油化学成分不同, 抗真菌、细菌活性也不同, 表明其可能有不同的抗真菌与抗细菌机制。     

Chemical Composition and Phytotoxic Effects of Essential Oils Obtained from Ailanthus altissima (Mill.) Swingle Cultivated in Tunisia

Ailanthus altissima Mill. Swingle (Simaroubaceae), also known as tree of heaven, is used in the Chinese traditional medicine as a bitter aromatic drug for the treatment of colds and gastric diseases. In Tunisia, Ailanthus altissima is an exotic tree, which was introduced many years ago and used particularly as a street ornamental tree. Here, the essential oils of different plant parts of this tree, viz., roots, stems, leaves, flowers, and samaras (ripe fruits), were obtained by hydrodistillation. In total, 69 compounds, representing 91.0–97.2% of the whole oil composition, were identified in these oils by GC‐FID and GC/MS analyses. The root essential oil was clearly distinguishable for its high content in aldehydes (hexadecanal ( 1 ); 22.6%), while those obtained from flowers and leaves were dominated by oxygenated sesquiterpenes (74.8 and 42.1%, resp.), with caryophyllene oxide ( 4 ) as the major component (42.5 and 22.7%, resp.). The samara oil was rich in the apocarotenoid derivative hexahydrofarnesyl acetone ( 6 ; 58.0%), and the oil obtained from stems was characterized by sesquiterpene hydrocarbons (54.1%), mainly β‐caryophyllene (18.9%). Principal component and hierarchical cluster analyses separated the five essential oils into four groups, each characterized by the major oil constituents. Contact tests showed that the germination of lettuce seeds was totally inhibited by all the essential oils except of the samara oil at a dose of 1 mg/ml. The flower oil also showed a significant phytotoxic effect against lettuce germination at 0.04 and 0.4 mg/ml (?55.0±3.5 and ?85.0±0.7%, resp.). Moreover, the root and shoot elongation was even more affected by the oils than germination. The inhibitory effect of the shoot and root elongation varied from ?9.8 to ?100% and from ?38.6 to ?100%, respectively. Total inhibition of the elongation (?100%) at 1 mg/ml was detected for all the oils, with the exception of the samara oil (?74.7 and ?75.1% for roots and shoots, resp.).     

植物精油对几种害虫的毒杀活性

对 11科 15属 2 7种植物精油的杀虫活性做了测定。八角茴香果实、柠檬果实、细叶桉叶和留兰香叶精油对粘虫、小菜蛾、棉铃虫和玉米象有较强的熏蒸活性 ;精油稀释 10 0倍后 ,甜橙果实、玳玳花和砂地柏精油对粘虫的拒食活性最高 ;在 0 4% (w/w)剂量下 ,肉桂皮和八角茴香果实等 7种精油对玉米象的种群形成抑制率达 10 0 %。