GC/MS法结合保留指数分析香青花与叶挥发油的化学成分

研究香青花与叶挥发油的化学成分。采用同时蒸馏萃取法(SDE)提取香青花与叶中的挥发油,使用气相色谱-质谱联用技术(GC-MS)获得总离子流图,各色谱峰相应的质谱图经过NIST11.L标准谱库检索,辅助保留指数比对定性,并采用峰面积归一化法进行定量分析,计算各成分的相对百分含量。从香青花与叶挥发油中共鉴定出41种物质,相同成分有15种,花与叶挥发油的化学成分含量差异较大,其中花挥发油中主要成分为α-葎草烯(13.46%)、环氧化葎草烯II(8.97%)、Ar-姜黄烯(8.50%)、δ-杜松烯(6.99%)等;叶挥发油中主要成分为α-葎草烯(17.47%)、α-蒎烯(15.17%)、Ar-姜黄烯(8.27%)、(E)-石竹烯(6.06%)等。采用GC-MS法结合保留指数鉴别香青花与叶挥发油中的同分异构体,提高了药用植物不同部位挥发油成分定性的准确性,为香青药用价值的开发和应用提供了参考。     

气相色谱-质谱法测定姜黄挥发油化学成分

采用水蒸气蒸馏法提取姜黄挥发油,用气相色谱－质谱联用技术分离和鉴定姜黄挥发油的化学成分。经计算机ＮＢＳ谱库检索,发现姜黄挥发油中至少有１５个峰,鉴定出α－姜黄烯、α－姜烯、桉叶油素和球姜酮等１５种组分;另外还有１－（３－环戊基醛）－２,４－二甲基苯、β－倍半水芹烯、大根香叶酮、大根香叶烷、顺双环［３,３,１］酮－２－烯－９－醇等成分。姜黄挥发油中主要成分为α－姜黄烯。     

顶空萃取-气相色谱-质谱法分析马鞭草的挥发油组分

采用顶空萃取-气相色谱-质谱法分离和鉴定马鞭草挥发油化学成分,用归一化法测定其相对含量.鉴定出64个组分,其含量占总挥发油组分峰面积的97.76%.主要成分是乙酸(3.55%)、芳樟醇(4.41%)、反-石竹烯(9.30%)、反-β-金合欢烯(3.99%)、律草烯(5.61%)、α-姜黄烯(8.50%)、十五烷(8.48%)、γ-芹子烯(3.75%)、β-没药烯(5.66%)、β-杜松烯(3.57%).     

水蒸汽蒸馏-气相色谱/质谱法分析7种竹叶挥发油的香气成分

利用水蒸汽蒸馏法(HD)和气相色谱-质谱法(GC-MS)测定了斑苦竹等7种竹叶挥发油的化学成分,并确定了7种竹叶挥发油中的主要香气成分。其中共有香气成分有8种,分别为苯甲醛、庚二烯醛、藏红花醛、大马士酮、α-紫罗兰酮、香叶基丙酮、β-紫罗兰酮和六氢法呢基丙酮。不同竹叶挥发油具有不同的香味,而且发现了某些高应用价值的化合物存在于竹叶挥发油中,如α-古巴烯、α-红没药醇、角鲨烯等,为以后进一步开发利用竹叶挥发油提供科学依据。     

气相色谱-质谱法分析蘘荷花穗挥发油化学成分

采用水蒸气蒸馏法提取黔产蘘荷花穗挥发油，并用气相色谱-质谱对其成分进行定性分析和峰面积相对含量的测定．共鉴定出45个化学成分，占挥发油总量的95．89％．主要成分为β-水芹烯(34．96％)、α-律草烯(13．09％)、β-榄香烯(7．31％)、β-蒎烯(6．50％)、α-水芹烯(6．07％)、α-蒎烯(3．87％)、β-石竹烯(3．18％)等。     

糖胶树叶挥发油化学成分研究

采用水蒸气蒸馏法提取糖胶树叶的挥发油.运用气质谱联用(GC-MS)技术研究海南糖胶树叶的挥发油化学成分.并采用峰面积归一化法确定各成分的相对质量分数.结果共鉴定出36种成分,占总离子流出峰面积的94.83%.糖胶树叶挥发油主要有α-蒎烯(16.62%),2-丙烯酸丁酯(15.86%)和大根香叶烯D(13.37%).本研究可为糖胶树的进一步研究开发和利用提供基础研究数据.     

含氮芥和蒽环的新型α,β-不饱和酮的合成、表征与抗肿瘤活性

为获得含氮芥和蒽环的α,β-不饱和酮衍生物及其体外抗肿瘤效果，结合Vilsmeier-Haack反应和羟醛缩合反应合成了两种新型含氮芥和蒽环的α,β-不饱和酮(1a和1b),其结构经¹H NMR、¹³C NMR、 MS(ESI)和紫外和荧光光谱表征。采用MTT法检测了1a和1b对肺癌细胞A549、肾癌细胞786-O、宫颈癌细胞Hela和乳腺癌细胞MDA-MB-231增殖的抑制活性；采用细胞划痕实验检测了1a对Hela细胞转移的影响；采用流式细胞仪(PI染色)检测了1a对Hela细胞周期的影响。结果表明：1a和1b对4种肿瘤细胞均有良好的抗增殖活性，其中1a的活性略高于1b;1a能有效抑制Hela细胞转移，并使Hela细胞周期阻滞在S期。     

气相色谱-质谱法测定艾叶挥发油中化学成分

采用水蒸气蒸馏法提取艾叶的挥发油,用气相色谱-质谱法分离和鉴定挥发油成分,并用归一化法测定其相对含量。共分离出76个组分,鉴定出59种化合物。其含量占总挥发油组分峰面积的94.3%。贵州遵义产艾叶主要挥发油成分及其含量为1,8-桉叶油素(22.19%)、樟脑(10.39%)、绿花白千层醇(6.57%)、蒿醇(4.95%)、L-龙脑(4.88%)、α-松油烯(3.98%)、蒿酮(3.44%)、顺式桧烯水合物(3.36%)、4-松油醇(2.68%)、菊油环酮(2.51%)、β-崖柏酮(2.41%)、1-松油醇(2.32%)和丁香酚(2.26%)等。     

顶空气相色谱-质谱法分析补骨脂挥发油化学成分

采用顶空气相色谱-质谱(Headspace/GC-MS)联用技术对补骨脂挥发油化学成分进行分析,确认出65种组分,并用峰面积归一化法测定,其质量分数占总挥发性组分峰面积的93.30%。主要成分为:乙酸乙酯(1.61%)、芳樟醇(3.56%)、反-石竹烯(26.8%)、白菖油烯(4.48%)、α-律草烯(3.28%)、1s,顺-卡拉烯(3.16%)、石竹烯氧化物(9.83%)和异补骨脂素(3.02%)。     

气相色谱-质谱联用法结合保留指数对高良姜挥发油成分的分析

采用气相色谱-质谱联用(GC-MS)法结合保留指数(RI)对高良姜水蒸气蒸馏法(SD)、超声波辅助溶剂提取法(UAE)和亚临界流体萃取法(SFE)所制备的挥发油进行分析,分别鉴定出51,46和60个挥发性组分,并通过峰面积归一化法确定各组分的相对含量。结果表明,高良姜挥发油的指标性成分1,8-桉叶素含量的大小顺序为SD法≈SFE法UAE法,UAE法虽耗时少、能耗低,但由于所用有机溶剂难去除,所得挥发油品质较差。SFE法可得到部分SD法无法得到的化合物,如2-羟基-1,8-桉叶素、二苯基庚烷类等。另外β-石竹烯、α-石竹烯、α-法尼烯、γ-杜松烯等高沸点组分比例,SFE法所得高于另两种方法;α-蒎烯、莰烯、β-蒎烯、柠檬烯、樟脑和α-松油醇等低沸点组分比例,SD法所得最高。同一批药材不同提取方法所得的挥发油成分大部分相似,但部分成分与组分比例因不同提取方法的原理存在差异,实际生产中可根据功效需求选择不同提取方法加以开发利用。     

Antitumor Compound Identification from Zanthoxylum bungeanum Essential Oil Based on Composition-activity Relationship

The chemical composition of Zanthoxylum bungeanum（Z bungeanum） essential oi1（39 batches） was analyzed by gas chromatography-mass spectrometry（GC-MS） analysis（23 ingredients）, and the antitumor activity against HeLa cells was detected via the MTT[3-（4,5-dimethylthiazol-2-yl）-2,5-diphenyltetrazolium bromide] assay. Two composition-activity relationship（CAR） models, generalized regression neural network（GRNN） and support vector regression（SVR） were respectively used to calculate the mean impact value（MIV） so as to identify bioactive com- pounds. Among them 9 ingredients（peaks 4, 15, 7, 8, 13, 3, 16, 9 and 11） were selected due to their high absolute MIVs. All of them have been confirmed with potential antitumor activity by previous researches. The CAR model combined with MIV was expected to be a credible tool for the active compound identification from herbs.     

三种丁香花精油的挥发性成分比较分析

为了解紫丁香、白丁香和红丁香花蕾精油样品挥发性成分的差异,采用气相色谱-质谱联用技术（GC-MS）分析了三种丁香花精油样品的挥发性成分,并对三者的挥发性成分进行了主成分分析和聚类分析。结果从紫丁香、白丁香和红丁香精油中分别解析出46、64和56种挥发性物质,包括烷烃类、酯类、醇类、酮类、烯烃类、酚类、有机酸等,其中共有的挥发性成分为9种。三种丁香花精油样品的挥发性成分比较分析显示,酯类是含量最高的挥发性成分,其次是烷烃类,并且这两类物质在不同品种的丁香花精油中含量不同。统计分析结果表明三种样品的挥发性成分之间没有明显差别。本研究为增加丁香花精油的应用范围提供了理论依据。     

北苍术和茅苍术挥发油成分的比较

采用气相色谱-质谱联用技术分析了北苍术和茅苍术的挥发油成分,分别鉴定出47和50种化学成分,并测定了其相对含量。 采用色谱指纹图谱八强峰法和分区法,根据色谱峰的保留时间把总离子流色谱图分为5个区,比较了北苍术和茅苍术的挥发油成分。 结果表明,在总离子流色谱图Ⅳ和Ⅴ区中,从北苍术和茅苍术中均检出苍术的主要药效成分β-桉叶油醇、苍术酮和苍术素,且相对含量较高。 这表明《中国药典》将北苍术、茅苍术统称为苍术具有一定的科学性。     

野生与栽培羌活药材挥发油含量及组分的比较分析

分析野生和栽培羌活药材挥发油含量及其组分的变化,为羌活药材的引种栽培及进一步的开发利用提供了依据。采用水蒸气蒸馏法提取羌活药材中的挥发油,通过GC-MS对挥发油成分进行分析鉴定;利用聚类分析对测定结果进行分类;通过相关分析研究海拔对羌活药材挥发油含量的影响。6份药材样品挥发油含量范围为1.60～7.98 mL/100g,6份羌活药材挥发油成分经GC-MS分析,共鉴定出57个化合物,共有成分12个;基于挥发油成分种类及相对含量的聚类分析显示了羌活药材挥发性成分种类及含量的种间差异;相关分析结果表明,海拔高度与挥发油含量存在显著正相关。野生和栽培羌活药材挥发油含量存在差异,总体上野生羌活药材的挥发油含量高于栽培种;羌活药材挥发油含量随海拔升高而增加。     

Essential oil composition and antioxidant activity of different extracts of Nepeta betonicifolia C.A. Meyer and Nepeta saccharata Bunge

Aerial parts essential oil of Nepeta betonicifolia and N. saccharata were obtained by hydrodistillation and analysed by GC-FID and GC-MS. Thirty-three and eighteen components represented 97.9% and 98.2% of the total oils identified, respectively. Main compounds of the oil of N. betonicifolia were 4aα,7β,7aα-nepetalactone (42.0%), germacrene D (6.0%), triplal (5.2%), 1-nor-bourbonanone (4.0%) and 1,8-cineole (3.2%). The principal constituents of the essential oil of N. saccharata were found to be 4aβ,7α,7aβ-nepetalactone (66.9%), germacrene D (12.9%), sabinene (6.5%) and trans-caryophyllene (3.3%). The radical scavenging capacity (RSC) of methanol extracts and chloroform, butanol and water subfractions of aerial parts of N. betonicifolia and N. saccharata were evaluated by using DPPH, FRAP and ABTS assays. TPC of each extract was measured using Folin-Ciocalteau. The antioxidant activity of the butanolic subfractions of both plants was higher than other extracts examined.     

千金子油理化性质及其脂肪酸和挥发油成分分析

对千金子油理化性质进行了系统的分析测试,并利用气相色谱法分析了千金子油脂肪酸及千金子挥发油,结果表明,千金子油中油酸含量最高占78.158%,其次是软脂酸、硬脂酸,分别为8.513%和5.523%;千金子挥发油中油酸、亚油酸和油酸-2-丙三醇酯含量较高,分别为17.747%,15.852%和13.196%.     

一种简易同时蒸馏萃取方法用于八角茴香挥发油提取及其GC-MS分析

设计了一种简易同时蒸馏萃取(SSDE)装置并用于八角茴香挥发油提取及其气相色谱-质谱法(GC-MS)分析。 该装置由圆底烧瓶、恒压滴液漏斗和回流冷凝管构成。 通过对八角茴香挥发油组分的GC-MS分析,比较SSDE法和水蒸汽蒸馏提取法(HD)提取植物源挥发油的效果。 结果表明,SSDE法所得挥发油相对含量在0.1%以上的19种化合物占挥发油总量的98.84%(相对标准偏差(RSD)(n=3)均不大于5.59%,其中RSD﹤5%的17种化合物占鉴定组分89.5%。SSDE法和HD法挥发油平均收率分别为7.30%(RSD=2.37%(n=5))和6.67%(RSD=5.26%(n=5))。 SSDE法简便、快速,适用于八角茴香挥发油的提取。     

Headspace Solid Phase Microextraction for Terpenes and Volatile Compounds Determination in Mastic Gum Extracts,Mastic Oil and Human Urine by GC– MS

A reliable analytical method was developed, which is based on Headspace Solid Phase Microextraction (HS-SPME) and Gas Chromatography–Mass Spectrometry (GC-MS) for the detection of volatile components of the gum and the essential oil of Pistacia lentiscus var. chia, commonly known as mastic gum and mastic oil respectively. The conditions of the HS-SPME were optimized and aqueous-ethanolic extracts of mastic gum and solutions of mastic oil in ethanol-water were analyzed by GC-MS. Almost 26 volatile components in mastic gum and 34 in mastic oil were identified in the gum and the oil respectively. The major constituents of the mastic gum and the mastic oil were α-pinene (63% and 76%, respectively), β-myrcene (15% and 14%), β-pinene (4% and 4%), limonene (2.5% and 1.5%), and caryophyllene (5% and 1%). The quantitative determination of six of the aforementioned substances in multi-analyte standard solutions was achieved with good performance features. The repeatability (RSD%) was <4.2% and the limits of detection were 1.2 µg/L for α-pinene, 0.09 µg/L for β-pinene, 0.7 µg/L for β-myrcene, 0.02 µg/L for camphene, 0.02 µg/L for p-cymene, and 0.07 µg/L for α-terpineol. The HS-SPME/GC-MS procedure was successfully applied to samples of human urine samples after dietetic use of various mastic products such as mastic gum, mastic oil and Greek traditional highly viscous white mastic sweet. Traces of several constituents of mastic, such as α-pinene, β-myrcene, limonene, p-methyl anisole, terpinene, carveol, myrtenol, caryophyllene, α-caryophyllene, and so forth, were detected in the collected urine samples.     

Chemical composition and antimicrobial activity of the volatile oil from Fusarium tricinctum, the endophytic fungus in Paris polyphylla var. yunnanensis

The volatile oil, obtained by hydro-distillation from Fusarium tricinctum, the endophytic fungus isolated from Paris polyphylla var. yunnanensis, was analyzed by gas chromatography-mass spectrometry (GC-MS). trans-1,2,3,3a,4,7a-Hexahydro-7a-methyl-5H-inden-5-one (73.1%), 2-methylene-4,8,8-trimethyl-4-vinyl bicyclo [5.2.0] nonane (12.0%), and 2,6-dimethyl-6-(4-methyl-3-pentenyl) bicyclo [3.1.1] hept-2-ene (4.5%) were the major compounds of the 15 identified components accounting for 95.4% of the volatile oil. The antimicrobial activity of the volatile oil was assayed against eight bacteria and two fungi. The minimum inhibitory concentration (MIC) values of the volatile oil against the test bacteria ranged from 25 to 45 microg/mL. The MIC values against the fungi Candida albicans and Magnaporthe oryzae were 100 and 225 microg/mL, respectively. The mean inhibitory concentration (IC50) values of the volatile oil against the test bacteria ranged from 17.8 to 31.6 microg/mL, and those of the volatile oil against C. albicans and M. oryzae were 84.3 and 204.3 microg/mL, respectively.     

芹菜籽香气成分研究

采用固相微萃取法萃取黑龙江产芹菜籽香气成分,然后用GC—MS进行成分分析,并与水蒸气蒸馏法获得的精油成分进行比较．用CAR on PDMS萃取柱进行顶空固相微萃取时,共检测出26种成分,鉴定出占总成份89．650％的20种成分,主要成分为柠檬烯（35．980％）,β-月桂烯（20．500％）,β-蛇床烯（16．160％）,正戊基苯（5．295％）,β-蒎烯（3．412％）,α-蛇床烯（3．293％）．水蒸汽蒸馏法提取芹菜籽,以1．18％产率获得精油,共检测出23个成分,鉴定出占总精油91．375％的18种成分,主要成分为柠檬烯（31．149％）,β-蛇床烯（22．281％）,对甲苯基异戊酸酯（14．944％）,α-2-丙烯基苯甲醇（9．872％）,β-月桂烯（4．324％）和α-蛇床烯（4．322％）．