小黄皮叶挥发油的化学成分

利用水蒸气蒸馏法提取小黄皮叶挥发油,运用毛细管气相色谱-质谱联用法对挥发油进行了分析,分离出40个峰,鉴定了其中的37种成分,所鉴定成分占挥发油总量的99.87%,其主要化学成分为单萜及倍半萜类化合物。     

山莓叶挥发油化学成分的分析

本研究以水蒸气蒸馏法提取山莓叶挥发油,气相色谱-质谱法(GC-MS)鉴定挥发油的成分,峰面积归一化法确定各成分的相对含量,结果表明:山莓叶挥发油含化学成分133种,其中88种成分得以鉴定;在挥发油成分中,二十一烷(C21H44)相对含量最多,为15.7%,其次为植物醇(C20H40O)和(+)-香橙烯(C15H24),相对含量依次为12.3%,7.98%。     

扁桃叶挥发油化学成分的研究

采用水蒸气蒸馏法提取,运用气相色谱-质谱联用技术(GC-MS),首次对扁桃叶挥发油的化学成分进行分析,并用气相色谱面积归一化法测定各成分的相对百分含量.共鉴定出其中的38种化合物,占挥发油总量的94.52%,其主要成分为:大根香叶烯(18.33%),喇叭醇(9.46%),石竹烯(9.04%),δ-杜松烯(5.73%),...     

不同青花椒品种挥发油成分的对比分析

青花椒产业近年来在南方地区发展迅速,而与品质相关的基础研究却较为滞后。本研究以市场上主要的八个青花椒品种为研究对象,采用水蒸气蒸馏法提取青花椒中的挥发油,结合气相色谱-质谱联用技术(gas chromatography-mass spectrometry,GC-MS)分析挥发油成分并进行聚类分析。结果显示,八个青花椒品种挥发油含量差异较大,在八种青花椒中共鉴别出60种成分,占挥发油相对含量的99.76%～99.66%,其中有29种共有成分,占挥发油含量的96.64%～98.95%。这些共有成分主要为醇类和烯类,含量较高的为芳樟醇和柠檬烯。八个青花椒品种挥发油的主要挥发性成分相似但含量相差较大,多数非共有挥发性成分含量少于1%,根据共有挥发性成分含量的差异,将八个青花椒品种分为了两类。对不同青花椒品种挥发油成分及含量的分析,可为青花椒的品质评价、品种选育及开发利用提供参考。     

栉叶蒿挥发油的GC-MS分析

目的:分析栉叶蒿挥发油化学成分.方法:用GC-MS结合Kovats保留指数(KI)对比法对其化学成分进行鉴定,并用气相色谱面积归一化法测定各成分的相对含量.结果:共鉴定了38个成分,占挥发油总含量的62.22%.结论:通过对栉叶蒿挥发油的分析,其主要成分为大香叶烯D(7.34%),α-桉叶醇(5.65%),丁香烯环氧物(5.12%)等,为充分开发利用这一植物资源提供依据.     

椿叶花椒果实精油对两种蚊虫的生物活性及成分分析

为筛选环保型的植物源灭蚊活性物质, 研究了椿叶花椒 Zanthoxylum ailanthoides 果实精油对白纹伊蚊Aedes albopictus和致倦库蚊Culex pipiens quinquefasciatus成蚊的熏杀活性, 并测试了精油对这两种蚊幼虫的毒杀效果。此外, 采用GC-MS分析了该精油的化学成分。 结果表明：在102.145 μg·cm^-3熏杀剂量下, 精油对白纹伊蚊和致倦库蚊成蚊的KT50值分别为2.788和3.505 min, 24 h致死率分别为100%和97.53%。该精油对白纹伊蚊和致倦库蚊4龄幼虫的LC50值分别为45.237和20.759 mg·L^-1。从椿叶花椒果实精油中共鉴定出14种化合物, 其中2-十一酮为主要成分, 相对含量为89.86%。结果说明椿叶花椒果实精油对两种蚊虫均有明显的杀虫活性, 具有开发成植物源灭蚊剂的潜力。     

茅莓叶挥发油化学成分的研究

利用气相色谱-质谱联用技术对中药茅莓叶的挥发油化学成分进行了研究,共鉴定出20种成分,其中主要成分为棕榈酸,反油酸,癸醛,壬醛,顺式-9-烯,十六酸,顺式-3-癸烯醇,硬脂酸,月桂酸,6,10,14-三甲基-2-十五酮,十七醇,羊腊酸。棕榈酸的含量最高,占挥发油成分总量的32.67%。     

小叶臭黄皮叶挥发油化学成分的研究

采用水蒸气蒸馏法提取小叶臭黄皮叶挥发油,运用毛细管气相色谱-质谱联用法对挥发油成分进行了分析,共分离出84个峰,鉴定了其中的66种成分,所鉴定成分占挥发油总量的94.52%.其主要化学成分为α-芹子烯(15.76%)、石竹烯(15.05%)、β-芹子烯(9.54%)、α-蒎烯(6.43%)和α-石竹烯(5.39%)等.     

香蜜儿叶香味成分分析

采用水蒸气蒸馏-乙醚萃取法对从新西兰引种栽培的香蜜儿叶中芳香性成分进行了提取,并用气相色谱-质谱联机技术对其中化学成分进行分析鉴定.共鉴定出51个芳香性有机成分,占香蜜儿叶挥发油提取物总含量的99.502 3%.通过对香蜜儿叶芳香性成分的分析,为香蜜儿香精香料的开发提供了依据.     

短柄南蛇藤叶普通粉挥发性成分的研究

目的:研究短柄南蛇藤叶普通粉中的挥发性成分.方法:利用有机溶剂-水蒸汽蒸馏提取短柄南蛇藤挥发油,用GC-MS进行测定,结合计算机检索技术对分离化合物进行结构鉴定,应用色谱峰面积归一化法计算各成分的相对百分含量.结果:分离鉴定出50种化学成分,占挥发油总量的92.24%,其中含量大于2%的分别为油酸31.59%、13-十八碳烯29.74%、棕榈酸4.41%、反-2-己烯醛3.36%、异丁基邻苯二甲酸酯3.26%、香叶基丙酮2.30%.结论:该文首次采用气相色谱-质谱联用法对短柄南蛇藤叶普通粉中的挥发性成分进行研究.     

黔产莪术精油的化学成分研究

为了解黔产莪术药材的品质,用GC／MS从黔产获术精油中共检出67个成分,鉴定了其中37个化合物,主要成分为莪术酮（curzerenon）45．02％,莪术烯醇（curcumenol）8．31％,β-榄香烯（β-elemene）5．79％,异莪术烯醇（iso-curcumenol）4．05％,黔产莪术精油抗肿瘤活性成分较高。     

Study on The Chemical Constituents from the Essential Oil of Cinnamomum tenuipilis Kosterm

This paper reports chemical constituents of the essential oil from the leaves of Cinnamomum tenuipilis Kosterm. By applying PGC, GC/MS/DS, IR and other methods, 12 components have been identified. These components are: 3-hexen-l-ol, ocimene, L-linalool, geraniol, α-copaene, β-caryophyllene, t-β-farnesene, α-humulene, δ-cadinene, (Z)-β-farnesene, diphenylamine, farneol etc. The total content of the above 12 compounds is 99.94 percent of the essential oil. L- linalool amounts to 97.51%.     

Artemisia magellanica. Chemical Composition of the Essential Oil from an Unexplored Endemic Species of Patagonia

The essential oil composition of the aerial parts of Artemisia magellanica Sch. Bip . (Asteraceae), native to Patagonia, was analyzed by GC‐FID‐MS. This is the first report on the essential oil composition of A. magellanica. A total of 113 components were identified accounting for 95.6–95.7 % of the oil. The essential oil was characterized by a high percentage of γ‐costol (21.0–43.5 %), selina‐4,11‐diene, (Z)‐β‐ocimene, (E)‐β‐farnesene, (Z)‐en‐yn‐dicycloether and 23 different esters (28.7 %). In turn, Artemisia biennis, a species native to North America, which is considered by some authors to be conspecific with A. magellanica, yielded an essential oil that was rich in (Z)‐β‐ocimene (34.7 %), (E)‐β‐farnesene (40.0 %) and the acetylenes (Z)‐ and (E)‐en‐yn‐dicycloethers (11.0 %). Thus, as A. biennis lacks the three main components present in A. magellanica, namely γ‐costol, 2‐methylbutyl 2‐methylbutyrate and selina‐4,11‐diene, these compounds could be considered as potential chemical markers for A. magellanica since they are absent or only found as minor constituents in other members of the genus. The data presented herein is also useful for genus taxonomy.     

小蓬草地上部分精油的活性组分

利用气质联用仪(GC-MS)对水蒸气蒸馏提取小蓬草(Conyza canadensis)地上部分精油的挥发性组分进行了分析,匹配度74以上的活性组分有柠檬烯、α-佛手柑油烯、顺式-β-麝子油烯等萜类化合物,反式-对-薄荷-2,8-二烯醇、顺式-对-薄荷-2,8-二烯-1-醇、香芹醇、反式香芹醇等醇类化合物,s-香芹酮等酮类化合物。通过纸上种子发芽的生物测定试验,结果表明小蓬草地上部分精油对受体植物油菜种子萌发具有抑制作用,且具有50%抑制作用的丙酮溶液的适宜浓度IC50为0.6 mg/mL。     

Chemical composition and antibacterial activity of the essential oil of Drimys granadensis L.f. leaves from Colombia

Drimys granadensis L.f., a native plant from Colombia, has been included in the Vademecum de Plantas Medicinales de Colombia by the Instituto de Investigación de Recursos Biológicos Alexander von Humboldt, due to its widespread use in the folk medicine for the treatment of gastrointestinal ailments. The chemical composition of the essential oil of Drimys granadensis obtained by hydrodistillation of the leaves was analyzed by GC and GC/MS analyses. A total of 85 components were identified, with the major compounds germacrene D (1, 14.7%), sclarene (9.5%), a-cadinol (7.3%), longiborneol acetate (2, 6.3%), drimenol (4.2%), (Z)-β-ocimene (3, 4.2%), a-pinene (4, 3.2%), and β-elemene (5, 2.7%). The essential oil was also tested against eight bacteria using the Kirby-Bauer disk-diffusion method. Most of the Gram-positive bacteria tested were susceptible to the D. granadensis essential oil, while the Gram-negative bacteria tested were not.     

江西迷迭香精油的成分分析及抗氧化、抑菌活性研究

为了研究江西迷迭香精油的化学成分及抗氧化、抑菌活性,采用水蒸气蒸馏法提取迷迭香精油,利用气相色谱-质谱联用法(GC-MS)对迷迭香精油成分进行分析,通过对DPPH自由基、羟基自由基的清除活性和还原力来研究迷迭香精油的体外抗氧化活性;通过以枯草芽孢杆菌、金黄色葡萄球菌和大肠杆菌为供试菌,测定抑菌圈大小和最低抑菌浓度(MIC)来研究迷迭香精油的抑菌活性。实验结果表明,从迷迭香精油中鉴定出40种化学成分,占精油总量的99.46%,其主要化学成分有α-蒎烯(39.05%)和1,8-桉叶素(16.86%),其次是莰烯(4.22%)、D-柠檬烯(3.87%)、龙脑(3.74%)、β-石竹烯(3.11%)等,α-蒎烯的含量高于国内其他产地;迷迭香精油对DPPH、羟基自由基和还原力的半数清除率IC₅₀值分别为76.42、51.40和49.15μL/mL;精油对枯草芽孢杆菌、金黄色葡萄球菌和大肠杆菌的抑菌圈大小分别为14.40±0.66、11.41±0.19、11.70±0.27 mm,最低抑菌浓度(MIC)分别为2.50、10.00、10.00μL/mL,对枯草芽孢杆菌的抑制作用明显强于金黄色葡萄球菌和大肠杆菌。结果表明迷迭香精油具有较好的抗氧化、抑菌活性。     

兴安杜鹃叶中挥发性成分的GC-MS分析

采用水蒸气蒸馏法对兴安杜鹃叶中的挥发性成分进行提取,并运用气相色谱—质谱联用技术(GC-MS)对其挥发性成分进行了系统的分离和鉴定。从兴安杜鹃叶中共鉴定出54种挥发性成分,占总馏出成分的97.84%。兴安杜鹃叶主要挥发性成分为桉叶醇(eduesmol),相对含量10.95%;β-愈创木烯(β-guaiene),相对含量10.21%;长叶醛(longifolenaldehyde),相对含量7.88%;1,5,9,9-四甲基-1,4,7-环十一碳三烯(1,5,9,9-tetramethyl-1,4,7-cy-cloundecatriene),相对含量7.80%;杜鹃酮(germacrone),相对含量5.91%;(-)-葎草烯环氧化物Ⅱ((-)-HumuleneepoxideⅡ),相对含量5.52%;2-庚基-1,3-二氧戊环(2-heptyl-1,3-dioxolane),相对含量4.99%;石竹烯(caryo-phyllene),相对含量3.70%;(+)-γ-古芸烯((+)-γ-gurjunene),相对含量3.44%。     

Chemotaxonomic Importance of the Essential‐Oil Composition in Two Subspecies of Teucrium stocksianum Boiss. from Iran

The hydrodistilled essential oils obtained from aerial flowering parts of Teucrium stocksianum ssp. stocksianum (TSS) and T. stocksianum ssp. gabrielae (TSG) from Iran were analyzed by capillary GC and GC/MS. The oil analysis of two subspecies led to the identification of 65 compounds that accounted for 93.3 and 95.1% of the total oil compositions, respectively. Sesquiterpenoids (52.9%) constituted the main compounds in the essential oil of TSS represented mainly by cis‐sesquisabinene hydrate (12.0%), followed by epi‐β‐bisabolol (6.6%), guaiol (5.4%), and β‐eudesmol (4.4%), whilst monoterpenoids (61.2%) were found to be the major components of the oil of TSG, represented by α‐pinene (23.0%), β‐pinene (13.0%), myrcene (6.3%), and sabinene (6.3%). The principal component in both subspecies, TSS and TSG, was α‐pinene (22.0 and 23.0%, resp.) and β‐pinene (6.5 and 13.0%, resp.). epi‐α‐Cadinol, myrcene, and sabinene, which were detected as principal compounds of TSG, were characterized in lower amounts (<1.5%) in the oil of TSS. Seven components were identified in the oil of TSS corresponding to 25.9% of total oil, which were totally absent in the oil of TSG, of which cis‐sesquisabinene hydrate (12.0%), guaiol (5.4%), and β‐eudesmol (4.4%) were in considerable amounts. Taxonomic position of the subspecies is discussed on the basis of phytochemical data.     

椪柑精油及其主要抑菌组分对菌核青霉的抑制作用

采用水蒸气蒸馏法提取椪柑(Citrus reticulate Blanco)果皮精油,并用GC-MS对其成分进行分析,共鉴定出46种成分,主要包括柠檬烯(57.67%)、β-芳樟醇(5.36%)、2-蒈烯(4.47%)、β-蒎稀(4.31%)、γ-松油烯(4.08%)、α-蒎烯(3.27%)、1,2-二异丙烯基环丁烷(2.87%)、β-月桂烯(2.77%)、α-侧柏烯(2.40%)、β-水芹烯(2.24%)、癸醛(1.80%)和香茅醇(1.49%)等。采用污染食物技术(poisoned food technique)和液体培养法(liquid culture)测定了不同浓度椪柑精油以及主要抑菌组分对菌核青霉的抑制作用。结果表明:不同浓度(0.5~20μl/ml)的椪柑精油对菌核青霉生长均有一定的抑制,且抑菌效果与浓度呈正相关。无论是采用污染食物技术还是液体培养法,20μl/ml椪柑精油均能完全抑制菌核青霉生长;随着培养 时间延长到7d, 20μl/ml椪柑精油抑菌效果有所下降,但仍能显著抑制菌核青霉生长。采用污染食物技术考察了椪柑精油中7种常见抑菌成分对菌核青霉的影响。结果表明,0.04μl/ml柠檬醛和1.07μl/ml β-芳樟醇能显著抑制菌核青霉生长,而其他组分无明显作用。实验结果表明,椪柑精油的抑菌作用可能归功于其所含的柠檬醛和β-芳樟醇。     

Chemical Composition of the Essential Oils from Different Morphological Parts of Pinus cembra L.

The essential oils from needles, twigs, bark, wood, and cones of Pinus cembra were analyzed by GC‐FID, GC/MS, and ¹H‐NMR spectroscopy. More than 130 compounds were identified. The oils differed in the quantitative composition. The principal components of the oil from twigs with needles were α‐pinene (36.3%), limonene (22.7%) and β‐phellandrene (12.0%). The needle oil was dominated by α‐pinene (48.4%), whereas in the oil from bark and in the oil from twigs without needles there were limonene (36.2% and 33.6%, resp.) and β‐phellandrene (18.8% and 17.1%, resp.). The main constituents of the wood oil as well as cone oil were α‐pinene (35.2% and 39.0%, resp.) and β‐pinene (10.4% and 18.9%, resp.). The wood oil and the cone oil contained large amounts of oxygenated diterpenes in comparison with needle, twig, and bark oils.