毛两面针挥发油化学成分

利用气相色谱-质谱联用技术对广西柳州地区大瑶山的毛两面针挥发油化学成分进行了研究,共鉴定出20种成分,占挥发油成分的45.72%。其中主要成分为倍半萜。     

五种胡椒属来源的海风藤挥发油成分的比较研究

本文对四种及一变种胡椒属植物的茎叶进行了挥发油的GC比较。并以GC-MS研究了毛Piper puberulum(Benth.)Maxim.的挥发油成分,共鉴定了54个化合物,其中主要成分为倍半萜。结果表明,毛的挥发油成分与其它四种样品差异很大。     

1-MCP对‘粉红女士’苹果冷藏期间品质变化和香气形成的影响

以'粉红女士'苹果为试验材料,研究了1 μL/L 1-MCP(1-甲基环丙烯)对苹果冷藏期间乙烯释放速率、呼吸速率、果实硬度以及香气成分和相对含量的影响.结果表明,1-MCP处理可显著抑制'粉红女士'苹果冷藏期间呼吸作用和乙烯释放,有效延缓果实硬度的下降.冷藏期内'粉红女士'苹果香气物质主要有醇类、醛类、酯类、烯类、酸类和烷烃类等,并以酯类香气为主(占46.15%);1-MCP能显著减少果实贮藏期间酯类、醇类和烷烃类香气成分种类和相对含量,处理果中酯类和醇类香气成分种类比同期对照分别减少了50%和78%,主要香气成分丁酸己酯在处理和对照果实的相对含量分别为1.12%～1.73%和1.87%～5.18%.可见,1-MCP处理对'粉红女士'苹果具有良好保鲜效果,也显著地抑制了贮藏期间香气的形成.     

茶梅品种‘冬玫瑰’不同花期及花器官的香气组成成分分析

采用固相微萃取和GC-MS技术,分析茶梅品种‘冬玫瑰’(Camellia sasanqua‘Dongmeigui’)不同花期和花器官的香气组成成分及其相对含量,并对其变化规律进行了研究。结果表明:花蕾期、初花期、盛花期和末花期香气组成成分分别有30、49、42和48种,共有成分13种;随花朵开放,各成分的相对含量呈现不同的变化趋势,其中,苯乙酮和顺式-芳樟醇氧化物的相对含量随花朵开放呈逐渐升高的趋势,在初花期、盛花期和末花期二者相对含量的总和均最高,分别为20.08%、44.92%和62.02%;随花朵开放,烷烃类和酚类成分的相对含量逐渐降低,醛酮类成分的相对含量逐渐升高,醇类和烯类成分的相对含量先升高后降低,芳香烃类成分的相对含量先降低后升高。在盛花期,外轮花瓣、内轮花瓣、雄蕊和雌蕊香气的组成成分分别有31、48、34和24种,共有成分12种;其中,苯乙酮和顺式-芳樟醇氧化物在内轮花瓣和雄蕊中的相对含量总和分别高达74.29%和76.32%。从成分类型看,外轮花瓣的香气以烯类和醛酮类成分为主,内轮花瓣和雄蕊的香气以醛酮类和醇类成分为主,雌蕊的香气以醇类、醛酮类、烷烃类和酚类成分为主。综合分析结果显示:茶梅品种‘冬玫瑰’花朵香气的组成成分在不同花期和花器官中均存在较大差异;总体上看,醛酮类和醇类成分是影响其香气浓郁程度的关键成分,其中主体成分是苯乙酮和顺式-芳樟醇氧化物,而内轮花瓣和雄蕊是其香气释放的主要部位。     

商州产大马士革玫瑰精油研究

采用ISO9842:2003玫瑰油标准,对陕西商州引种的保加利亚主栽玫瑰品种“Kazanluk”(RosadamascenaMiller)精油进行分析。结果表明,该玫瑰精油香气具有天然玫瑰花香,香气细腻、柔和、飘逸。油为液体,淡黄色,相对密度(20/20℃)0.8599,折光指数(20℃)1.4592,旋光度(20℃)-4.3°,冻点20.6℃,酯值11.9,这些物理指标达到了标准要求。大量主香成分相对含量:乙醇0.5%,香茅醇45.5%,橙花醇4.5%,香叶醇7.6%,苯乙醇2.9%,十七烷烃1.13%,十九烷烃15.5%,二十一烷烃5.0%。这些成分含量与原产地保加利亚玫瑰油成分范围有一定差异,但与摩洛哥同类玫瑰油标准相符,可以作为商品油在国际市场销售。     

冬青叶兔唇花地上部分非极性成分的GC-MS分析

兔唇花属植物具有良好的止血活性,该属植物的化学成分研究也比较深入,但未见对冬青叶兔唇花化学成分的报道。为明确冬青叶兔唇花的化学成分,我们首次对其地上部分的非极性成分进行了GC-MS分析,并利用峰面积归一化法确定各成分的相对含量。从冬青叶兔唇花地上部分的非极性成分中,我们分离、鉴定了52种成分,占非极性成分总量的92.61%,主要包括脂肪酸酯、长链烷烃、单萜、倍半萜、甾体及芳香化合物等。本研究为兔唇花属植物资源的合理开发利用奠定了基础。     

毛冬瓜根挥发油化学成分分析

采用水蒸气蒸馏法提取,运用毛细管气相色谱/质谱联用法首次对毛冬瓜根挥发油化学成分进行了分析研究,确认了其中的49种化合物,用气相色谱面积归一法测定各组分的相对百分含量.在分离出的主要挥发性成分中含有烃类(22.26%)、醛酮类(8.52%)、醇类(45.38%)、酚类(1.08%)、羧酸类(7.69%)、酯类(7.18%)、杂环类(2.72%)和环氧类(3.39%)等8大类.在主要成分中以萜类化合物为主(62.20%),包括5种单萜(5.29%)和17种倍半萜(56.91%).其中多种成分为已知药用成分,为进一步评价其质量和开发新药提供了基础数据.     

菠萝蜜中香气成分分析

用溶剂法提取菠萝蜜中的香气成分,用GC-MS联用技术鉴定了82个化合物,占香气成分总量的94．66％,主要为脂肪酸类以及酯类、醇类、烷氧基烷烃类和酮类物质,主要成分为亚油酸(24．10％),棕榈酸(15．72％)和油酸(6．16％)。     

毛两面针挥发油化学成分及其生物活性

研究了毛两面针挥发油抑菌作用。抗菌实验结果表明,水蒸馏法提取的挥发油对金黄色葡萄球菌、白色念珠菌有明显的抑菌作用,乙醚提取的挥发油原液对金黄色葡萄球菌、大肠杆菌、绿脓杆菌、白色念珠菌有明显的抑菌作用。采用GC/MS分析了水蒸汽所得挥发油的化学成分,鉴定了20种物质,其中,主要成分是倍半萜。(-)-spathulenol、-γelemene和germacrene D等已被报道有抑菌作用的成分含量分别为12.53%、1.75%和1.44%。     

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。     

The influence of fatty acid supply and aldehyde reductase deletion on cyanobacteria alkane generating pathway in <Emphasis Type="Italic">Escherichia coli</Emphasis>

Cyanobacteria alkane synthetic pathway has been heterologously constructed in many microbial hosts. It is by far the most studied and reliable alkane generating pathway. Aldehyde deformylating oxygenase (i.e., ADO, key enzyme in this pathway) obtained from different cyanobacteria species showed diverse catalytic abilities. This work indicated that single aldehyde reductase deletions were beneficial to Nostoc punctiforme ADO-depended alkane production in Escherichia coli even better than double deletions. Fatty acid metabolism regulator (FadR) overexpression and low temperature increased C18:1 fatty acid supply, and in turn stimulated C18:1-derived heptadecene production, suggesting that supplying ADO with preferred substrate was important to overall alkane yield improvement. Using combinational methods, 1 g/L alkane was obtained in fed-batch fermentation with heptadecene accounting for nearly 84% of total alkane.     

罗汉果叶片挥发性成分与访花昆虫: 雌雄株差异及其生态影响

为探究罗汉果(Siraitia grosvenorii)自然授粉不良的形成原因,该文以罗汉果品种“大地二号”的种苗为材料,采用定点定时方法调查罗汉果雌雄株访花昆虫,同时利用GC-MS对雌雄株叶片的挥发性成分进行比较分析。结果表明:在雄株上观察到访花昆虫102种,分属于8目29科,其中包括蜜蜂科、眼蝶科、夜蛾科和天蛾科等传粉昆虫类群; 在雌株上观察到访花昆虫69种,分属于7目16科,但未观察到上述传粉昆虫类群。雄株访花昆虫的物种丰富度、多度和Shannon-Wiener多样性均显著高于雌株(P<0.05),Jaccard相似性分析显示,雌株和雄株访花昆虫达到中等不相似水平。在雄株叶片中鉴定出挥发性成分17种,优势成分为萜烯类化合物,占总含量的67.31%; 在雌株叶片中鉴定出挥发性成分12种,优势成分为烷烃类化合物,占总含量的44.27%。雄株具有较多特有成分,包括7种萜烯类和3种酯类成分,占总体成分的45.45%; 雌株的特有成分较少,包括4种烷烃类和1种酯类成分,占总体成分种类的22.72%。Jaccard相似性分析显示,雌株和雄株的挥发性成分总体上达到中等不相似水平,其中萜烯类和酯类的相似度更低,达到极不相似水平。进一步分析表明,在罗汉果雌雄株之间,由于挥发性化合物在优势成分上的重要差异,以及特有成分的大量存在,可能导致了它们访花昆虫类群的显著差异,进而影响了罗汉果的自然传粉过程。     

Studies on Leaf Surface Lipid of Tobacco III. Compositional Change in Alkane during Growth and Senescence of Tobacco Leaves

Alkane is the major constituent of epicuticular wax universally distributed in plants. Tobacco leaves contained 5–10 mg of alkane per 1000 cm². The content gradually increased with leaf age. Leaves on the upper stalk contained more alkane than those on lower stalk. Components with carbon numbers from 27 to 33 occupied more than 98 % of the total alkane content. In relative ratios of alkane components, anteiso-C₃₀ and normal-C₃₁ were most drastically and increased, respectively, with leaf age regardless of stalk position. On the other hand, normal-C₂₉ and normal-C₃₃ increased and decreased, respectively, from the upper to lower stalk positions without being affected by leaf age. These results suggest the possible use of alkane composition as an index of leaf maturity and stalk position, for example, the ratio of anteiso-C₃₀/normal-C₃₁ for maturity and normal-C₃₃/normal-C₂₉ for stalk position.     

红树植物木榄胚轴中的挥发性成分和脂肪酸成分分析

应用毛细管气相色谱-质谱联用技术对红树植物木榄胚轴中挥发性成分和脂肪酸成分进行了分析检测,检测到挥发性成分30个,鉴定了其中的27种成分,占所检测挥发性成分总量的97.01%,以烷烃类为主,占鉴定成分的67.43%,还有酸、酯及萜类化合物等;检测到脂肪酸组分23种,确定了其中的19种,脂肪酸检出量为97.81%,其中饱和脂肪酸占64.87%,不饱和脂肪酸占35.13%。     

Chemotaxonomic significance of leaf alkanes in species of Ficus (Moraceae)

The alkane pattern of leaf waxes from 24 tropical Ficus species in Nigeria was determined by gas chromatography and gas chromatography–mass spectrometry. Of the 12 alkanes identified, hentriacontane and tritriacontane were the major components in all the species studied. The chemosystematic significance of leaf alkanes is discussed in Ficus for the first time. There is an indication that alkane occurrence in Ficus could provide useful information to the understanding of species variability.     

Structure of the Pseudomonas putida alkBAC operon. Identification of transcription and translation products

The structural genes of the Pseudomonas oleovorans alk (alkane utilization) system, which are localized on the alkBAC operon, were cloned as a 16.9-kilobase pair EcoRI fragment. We have measured the length and determined the position of the alkBAC operon on this fragment by electron microscopy of R-loops. Furthermore, the 7.3-kilobase pair long alkBAC operon was analyzed for translation products in Escherichia coli minicells. Using a spectrum of overlapping subclones, six different proteins were identified. Starting from the alkBAC promotor, these polypeptides had molecular masses of 41, 15, 49, 58, 59, and 20 kDa, respectively. The 41-kDa protein was identified as alkane hydroxylase by reaction with a specific antibody. The 15- and 49-kDa peptides are soluble components of the alkane hydroxylase complex. The 58-kDa protein is most likely involved in alkanol dehydrogenase activity.     

Reconstitution of Plant Alkane Biosynthesis in Yeast Demonstrates That Arabidopsis ECERIFERUM1 and ECERIFERUM3 Are Core Components of a Very-Long-Chain Alkane Synthesis Complex

In land plants, very-long-chain (VLC) alkanes are major components of cuticular waxes that cover aerial organs, mainly acting as a waterproof barrier to prevent nonstomatal water loss. Although thoroughly investigated, plant alkane synthesis remains largely undiscovered. The Arabidopsis thaliana ECERIFERUM1 (CER1) protein has been recognized as an essential element of wax alkane synthesis; nevertheless, its function remains elusive. In this study, a screen for CER1 physical interaction partners was performed. The screen revealed that CER1 interacts with the wax-associated protein ECERIFERUM3 (CER3) and endoplasmic reticulum-localized cytochrome b5 isoforms (CYTB5s). The functional relevance of these interactions was assayed through an iterative approach using yeast as a heterologous expression system. In a yeast strain manipulated to produce VLC acyl-CoAs, a strict CER1 and CER3 coexpression resulted in VLC alkane synthesis. The additional presence of CYTB5s was found to enhance CER1/CER3 alkane production. Site-directed mutagenesis showed that CER1 His clusters are essential for alkane synthesis, whereas those of CER3 are not, suggesting that CYTB5s are specific CER1 cofactors. Collectively, our study reports the identification of plant alkane synthesis enzymatic components and supports a new model for alkane production in which CER1 interacts with both CER3 and CYTB5 to catalyze the redox-dependent synthesis of VLC alkanes from VLC acyl-CoAs.     

Controlled and functional expression of the Pseudomonas oleovorans alkane utilizing system in Pseudomonas putida and Escherichia coli

The OCT plasmid encodes enzymes for alkane hydroxylation and alkanol dehydrogenation. Structural components are encoded on the 7.5-kilobase pair alkBAC operon, whereas positive regulatory components are encoded by alkR. We have constructed plasmids containing fusions of cloned alkBAC and alkR DNA and used these fusion plasmids to study the functional expression of the alkBAC operon and the regulatory locus alkR in Pseudomonas putida and in Escherichia coli. Growth on alkanes requires a functional chromosomally encoded fatty acid degradation system in addition to the plasmid-borne alk system. While such a system is active in P. putida, it is active in E. coli only in fadR mutants in which fatty acid degradation enzymes are expressed constitutively. Using such mutants, we found that E. coli as well as P. putida grew on octane as the sole source of carbon and energy when they were supplied with the cloned complete alk system. The alkR locus was strictly necessary in E. coli as well as in P. putida for expression of the alkBAC operon. The alkBAC operon could, however, be further reduced to a 5-kilobase pair operon without affecting the Alk phenotype in either species to a significant extent. Although with this reduction the plasmid-encoded alkanol dehydrogenase activity was lost, chromosomally encoded alkanol dehydrogenases in P. putida and E. coli compensated for this loss. The induction kinetics of the alk system was studied in detail in P. putida and E. coli. We used specific antibodies raised against alkane hydroxylase to follow the appearance of this protein following induction with octane. We found the induction kinetics of alkane hydroxylase to be similar in both species. A steady-state level was reached after about 2 h of induction in which time the alkane hydroxylase accounted for about 1.5% of total newly synthesized protein. Thus, alkBAC expression is very efficient and strictly regulated to both P. putida and E. coli.     

燕山山脉一种香料型乳菇的香味成分分析

利用固相微萃取技术（SPME）偶联气相色谱-质谱（GC-MS）分析燕山山脉一种香料型乳菇——香亚环乳菇Lactarius subzonarius的挥发性成分。共检出25种挥发性成分,其中氧杂环化合物3种、醛类1种、酯类13种、烯烃类3种、芳香族化合物2种和烷烃类3种。具有葫芦巴感官气味的挥发性组分3-羟基-4,5-二甲基-2(5H)-呋喃酮的相对含量35.76%,该成分是其近缘种Lactarius helvus的主要香味化合物,故推测3-羟基-4,5-二甲基-2(5H)-呋喃酮是其关键香味成分。     

北细辛超临界萃取物挥发性成分的GC-MS分析

采用超临界流体萃取法(SFE)和水蒸气蒸馏法分别对北细辛根及根茎进行提取分离,分别得5.5%SFE萃取物和2.8%挥发油。应用GC-MS分析,从北细辛SFE萃取物中鉴定出7种化学成分,占萃取物总量的72.70%,其中甲基丁香酚为44.62%;从细辛挥发油中鉴定出19种化学成分,占挥发油总量的88.53%,其中甲基丁香酚为43.02%。两种方法有6种成分完全相同,其中致癌物质黄樟油素SFE法比蒸馏法低2.8倍。北细辛根及根茎超临界萃取物与水蒸汽蒸馏挥发油主要成分相同,但其化学组成存在较大差异,提示药效亦不相同。超临界流体萃取法是剂型改革的有效方法之一。