樟科植物中脂肪酸成分的分布

本文报道了樟科11个属49种种子油和‘种果肉油的脂肪酸成分。其中樟族和木姜子族的各属种(滇新樟除外)种子油脂肪酸成分以 C_(10)、C_(12)和 C_(14)饱和或烯酸为主。而厚壳桂属、润楠和楠属种子油脂肪酸成分主要为棕榈酸、油酸和亚油酸。山苍子、天目木姜子、大果山胡椒、山橙、红脉钓樟、鸭公树和锈叶新木姜子种子油中的 C_(10)、C_(12)和 C_(14)烯酸经分离鉴定均是顺式Δ~4烯酸。     

Chemotaxonomic differentiation of conifer families and genera based on the seed oil fatty acid compositions: multivariate analyses

 The fatty acid compositions of seed oils from 34 conifer species, mainly Pinaceae and secondarily Cupressaceae, have been determined by gas-liquid chromatography of the methyl esters. As noted in earlier studies, these oils were characterized by the presence of several Δ5-olefinic acids, i.e., 5,9-18:2, 5,9,12-18:3, 5,9,12,15-18:4, 5,11-20:2, 5,11,14-20:3, and 5,11,14,17-20:4 acids, in addition to the more common saturated, oleic, linoleic and α-linolenic acids. Based on these fatty acid compositions, and on those established in earlier systematic studies (totalling 82 species), we established a chemotaxonomic grouping of the main conifer families, i.e., of the Pinaceae, Taxodiaceae, Cupressaceae, and Taxaceae. This was achieved using multivariate analyses (principal component analysis and discriminant analysis). The fatty acids that discriminate best in this classification are the 5,11,14,17-20:4, 9,12,15-18:3 and 5,9,12-18:3 acids. Moreover, it was possible to differentiate between several genera of the Pinaceae: Pinus (including Tsuga and Pseudotsuga), Abies, Cedrus, and Picea plus Larix, represented quite distinct groups. Other fatty acids such as oleic, linoleic, and 5,9-18:2 acids were also important for this purpose. The fatty acid compositions, and particularly the Δ5-olefinic acid contents of conifer seed oils, may thus be applied to the chemosystematic distinction among conifer families as well as genera of the Pinaceae. Received: 3 January 1997 / Accepted: 17 April 1997     

Can the fatty acid selectivity of plant lipases be predicted from the composition of the seed triglyceride?

To address the question can the fatty acid selectivity of plant lipases be predicted from the composition of the seed triglyceride, we have characterised the selectivity of lipases from a wide range of oilseeds with diverse fatty acid compositions. For this study, a novel hydrolysis assay using a fully randomised oil, was developed. From some seed sources (e.g. Cinnamomum camphora), lipases show high preference for particular fatty acids, whilst from others (e.g. Brassica napus, Theobroma cacao80% saturated or 'unusual' fatty acids may contain lipases which exhibit selectivity. It therefore follows that since the majority of seeds are composed of unsaturated fatty acids, that highly selective lipases will be unusual in nature. However lipases from some species of the Cuphea genera show exceptionally high preference for particular fatty acids. For example, lipase from seeds of Cuphea procumbans has over 20-fold selectivity for C10:0.     

Disaturated and dipolyunsaturated phospholipids in the bovine retinal rod outer segment disk membrane.

Thin-layer chromatography was used to separate the major phospholipid headgroup classes of the rod outer segment disk membrane into subfractions which differ markedly in fatty acid composition. At least 18% of the rod outer segment phosphatidylcholine must contain two saturated fatty acids. Furthermore, two unsaturated fatty acids are found in at least 43% of the phosphatidylserine, 24% of the phosphatidylcholine, and 24% of the phosphatidylethanolamine. The unsaturated acids are predominantly polyunsaturated in all cases. A similar separation, but with less resolution, was achieved with silicic acid column chromatography. The temperature dependence of the polarization of the fluorescence of trans-parinaric acid (9,11,13,15-all-trans-octadecatetraenoic acid) showed that the thermal behavior of aqueous dispersions of the phosphatidylcholine subfractions was consistent with their fatty acid compositions.     

唇形科益母草等7种植物果实化学成分分析及形态特征

益母草、白花益母草、紫苏、野紫苏、小鱼仙草、石荠苎和细风轮菜系唇形科常见的药用植物。常生于路旁、沟边及空旷草地 ,民间也有广泛栽培。分布于广东、广西、湖南、湖北、云南、贵州、浙江、安徽、福建等省区。益母草、白花益母草民间全草入药 ,有活血调经、去痰生津的功效 ,果实称茺蔚子。用于月经不调 ,产后子宫出血及复位不全等症 [14 ]。野紫苏和紫苏的果实有镇咳、平喘和祛痰的功效 ,用于治疗咳嗽气喘、肠热便秘等症 [3 ] 。小鱼仙草用于治疗感冒头痛 ,胃炎 ,肾积水等症。石荠苎全草入药 ,用于治疗胃炎 ,慢性气管炎和肺积水等症[1] …     

Liposomal formulations from phospholipids of Greek almond oil. Properties and biological activity

The seeds of the almond tree [(Prunus dulcis (Mill.) D. A. Webb. (syn. Prunus amygdalus)] were collected in two different periods of maturity and were studied for their lipid content. The total lipids (TL) were extracted by the Bligh-Dyer method and the lipid classes have been isolated by chromatographic techniques and were analyzed by HPTLC coupled with a flame ionization detector (HPTLC/FID) and GC-MS. The oils were found to be rich in neutral lipids (89.9% and 96.3% of total lipids) and low in polar lipids (10.1% and 3.7% of total lipids) for the immature and mature seed oils, respectively. The neutral lipid fraction consisted mainly of triacylglycerides whereas the polar lipids mainly consisted of phospholipids. GC-MS data showed that the main fatty acid for both oils was 9-octadecenoic acid (oleic acid). The unsaturated fatty acids were found as high as 89.4% and 89.7%, while the percentage of the saturated fatty acids was found 10.6% and 10.3% for the immature and mature seed oils, respectively. Liposomes were prepared from the isolated phospholipids using the thin lipid film methodology, and their physical properties were characterized. Cytotoxicity was found absent when assayed against normal and cancerous cell lines. These new formulations may have future applications for encapsulation and delivery of drugs and cosmetically active ingredients.     

Fatty acid compositions of seed oils of Haematostaphis barteri and Ximenia americana

The fatty acid compositions of the seed oils of Haematostaphis barteri (blood plum) and Ximenia americana (Wild olive) plants were determined by the Gas Chromatography Mass Spectroscopy (GC-MS) technique. H. barteri contained six fatty acids with oleic (69.35%) and stearic (15.40%) the most abundant unsaturated and saturated fatty acids, respectively. Unsaturated higher fatty acids, namely Eicosadienoic (6.92%) and Erucic acid (2.74%) were detected and the total unsaturation for the oil was 79.01%. For X. americana, 10 fatty acids were identified of which seven were unsaturated yielding a total unsaturation of 92.42%. The oil contained essential fatty acids that is, Linoleic (1.34%), Linolenic (10.31%), Arachidonic (0.60%) and varying levels of unsaturated higher fatty acids, namely, Eicosatrienoic (3.39%), Erucic (3.46%) and Nervonic (1.23%) acids. The level of Oleic acid (72.09%) in the oil was close to the value for H. barteri.     

Disaturated and dipolyunsaturated phospholipids in the bovine retinal rod outer segment disk membrane

Thin-layer chromatography was used to separate the major phospholipid headgroup classes of the rod outer segment disk membrane into subfractions which differ markedly in fatty acid composition. At least 18% of the rod outer segment phosphatidylcholine must contain two saturated fatty acids. Furthermore, two unsaturated fatty acids are found in at least 43% of the phosphatidylserine, 24% of the phosphatidylcholine, and 24% of the phosphatidylethanolamine. The unsaturated acids are predominantly polyunsaturated in all cases. A similar separation, but with less resolution, was achieved with silicic acid column chromatography.The temperature dependence of the polarization of the fluorescence of trans-parinaric acid (9,11,13,15-all-trans-octadecatetraenoic acid) showed that the thermal behavior of aqueous dispersions of the phosphatidylcholine subfractions was consistent with their fatty acid compositions.     

The reaction of unsaturated fats with the acid hematein test

Summary The reaction of saturated and unsaturated oils and fatty acids was examined in vitro with the Baker's acid hematein test. It has been found that oils whose molecules contain fatty acid components of two or more double bonds give a positive reaction with the acid hematein technique. The intensity of the reaction runs parallel with the number of double bonds.     

Characteristics and composition of Parkia biglobbossa and Jatropha curcas oils and cakes

Parkia biglobbossa (PKBS) and Jatropha curcas (JTC) seeds were analysed for their proximate composition. The seeds oils were analysed for fatty acid, lipid classes, sterols and physicochemical characteristics. Proximate analysis revealed that the percentage crude protein, crude fat and moisture in PKBS were 32.40%, 26.525% and 10.18% respectively and 24.60%, 47.25% and 5.54% in JTC. Campesterol, stigmasterol, beta-sitosterol, Delta5-avenasterol and Delta7-stigmasterol were identified in the seed oils, but beta-sitosterol was most abundant, constituting 71.9% in JTC and 39.5% in PKBS. JTC oil had 72.7% unsaturated fatty acids with oleic acid predominating, while PKBS had 62% unsaturated fatty acids with linoleic acid being the most abundant. Results of lipid classes showed triglyceride as the dominant lipid species in the seed oils. Physicochemical analysis of the seed oils showed that they could be classified as semi drying oils and that they could be found applicable in alkyd resin and soap manufacture.     

Fatty Acid Composition of Baobab Seed and Its Relationship with the Genus Adansonia Taxonomy

Baobab seed oil contains specific fatty acids. Most of the studies on baobab fatty acids have been carried out singly and in isolation from each other, making it difficult to compare results through different species. The objective of the present study is to establish the seed fatty acid composition of each Adansonia species in order to evaluate and understand the relationships between the oil chemical compositions, the baobabs’ taxonomy and, the ecological and geographical origin of each seed lot. The seed oils have been analysed using gas chromatography (GC). The oils of all baobab species contain three major fatty acids: palmitic, oleic and linoleic acids. They also contain specific fatty acids such as cyclopropenic and cyclopropanic acids, which are characteristic of the Malvaceae family seed oils. It was possible to distinguish three sections through principal components analysis using the eleven fatty acids identified by GC. The Adansonia section contains high rates of oleic acid (± 35%), the Brevitubae section is rich in palmitic acid (± 42%) and the Longitubae section contains high levels of dihydrosterulic acid (± 5%). The oil fatty acid composition, however, does not enable a definitive characterization of profiles according to species. The fatty acid composition is not significantly influenced by the geographical, soil and climate conditions of the collection sites.     

The lipid composition of erythrocyte ghosts from a patient with congenital paramyotonia

The membrane lipid and fatty acid compositions of red blood cells from a paramyotonia patient were investigated. Cholesterol and total phospholipid contents in paramyotonia were not different from control. Only the sphingomyelin content was lower, and thus the molar ratio of phosphatidylcholine/sphingomyelin was higher than normal. The major abnormality concerned the fatty acid pattern. In all the phospholipid classes saturated fatty acids were increased and unsaturated fatty acids were decreased. The overall ratio of saturated/unsaturated fatty acids was 2.1 vs 1.6 in controls. Similar findings have been reported for the sarcolemma from paramyotonia patients. Thus, the results indicate that the membrane defect in this disease may be generalized.     

Fatty acid composition of the seed oil of Allium tuberosum

The fatty acid compositions of seed oil from ten kinds of Allium tuberosum (Chinese chive, Liliaceae) were determined by Gas Chromatography-Mass Spectroscopy (GC-MS). The seed oil of Allium tuberosum contained much important fatty acids with linoleic (57.0-71.6%) and palmitic (6.6-9.7%), the most abundant unsaturated and saturated fatty acids, respectively. The total unsaturation for the oil was 79.2-93.0%. It is concluded that Allium tuberosum oil is of important nutritional value.     

三种麻疯树种子油脂理化特性比较

以海南近海岸陆地上正常生长、结实的3个不同基因型麻疯树（南油1、2和3号）种子为材料,分析比较3种种子及其种子油的理化特性.结果表明：南油1、2和3号麻疯树种子长、宽、厚度和表面积差异均不显著,但南油2号种子千粒重显著大于1、3号、不完善粒率显著小于1、3号,其种子饱满度好,结实性状优.南油3号种子种仁含油量显著高于1、2号,而1、2号间无显著差异.3种麻疯树种子油的过氧化值、折射率和皂化值无显著差异,而南油2号的酸值显著低于1、3号;三者碘值皆低于100,且南油2号的碘值显著小于1、3号.3种麻疯树油脂肪酸成分主要是油酸、棕榈酸、亚油酸、硬脂酸和十七碳酸,且皆以不饱和脂肪酸为主,南油2号的饱和脂肪酸含量相对较高.与南油1号相比, 南油2、3号的应用潜力相对大.     

七种植物籽油中脂肪酸成分的比较分析(英文)

为寻求新的食用油资源,发展了一种快速可靠的气相色谱-质谱联用方法,用于植物籽油中脂肪酸成分的定性鉴定和含量测定。所建立的方法成功用于葡萄籽、南瓜籽和猕猴桃籽等七种植物籽油中的棕榈酸、十八烷酸、油酸、亚油酸和α-亚麻酸的定性定量分析。结果表明,刺葡萄籽油、普通葡萄籽油、国外葡萄籽油、南瓜籽油、枸杞籽油和西番莲籽油均具有相似的脂肪酸谱,尽管其中它们所含上述五种脂肪酸含量不同,由于均存在人体所必需的饱和与不饱和脂肪酸,故可以用作替代食用油。猕猴桃籽油因为其存在高含量的α-亚麻酸成分,可能是更好的食用油和营养油资源。本文首次对枸杞籽油、西番莲籽油和猕猴桃籽油脂肪酸成分进行绝对含量分析,为新的食用油资源的开发提供了重要的依据。     

Adaptive Changes in Membrane Lipids of Barophilic Bacteria in Response to Changes in Growth Pressure

The lipid compositions of barophilic bacterial strains which contained docosahexaenoic acid (DHA [22:6n-3]) were examined, and the adaptive changes of these compositions were analyzed in response to growth pressure. In the facultatively barophilic strain 16C1, phosphatidylethanolamine (PE) and phosphatidylglycerol (PG) were major components which had the same fatty acid chains. However, in PE, monounsaturated fatty acids such as hexadecenoic acid were major components, and DHA accounted for only 3.7% of the total fatty acids, while in PG, DHA accounted for 29.6% of the total fatty acids. In response to an increase in growth pressure in strain 16C1, the amounts of saturated fatty acids in PE were reduced, and these decreases were mainly balanced by an increase in unsaturated fatty acids, including DHA. In PG, the decrease in saturated fatty acids was mainly balanced by an increase in DHA. Similar adaptive changes in fatty acid composition were observed in response to growth pressure in obligately barophilic strain 2D2. Furthermore, these adaptive changes in response were also observed in response to low temperature in strain 16C1. These results confirm that the general shift from saturated to unsaturated fatty acids including DHA is one of the adaptive changes in response to increases in pressure and suggest that DHA may play a role in maintaining the proper fluidity of membrane lipids under high pressure.     

Fatty acids in callus cultures: Stage of reversal in the proportion of unsaturated to saturated acids and of change in major components

The lipids of the cotyledon of Cucumis melo contain a large proportion of unsaturated fatty acids with linoleic acid as the major component, whereas those of cotyledon callus show a marked reduction in linoleic acid, an increase in linolenic acid and a predominance of palmitic acid which results in an increase in total saturated acids. The fatty acid compositions of total lipids in the cotyledons at different stages of seedling development, excised cotyledon tissue at different stages of callus initiation and in isolated callus show that the observed changes manifested in the established callus occur in the newly formed meristimatic cells as a result of the action of growth substances used for callus initiation.     

两种海桐属植物种子油脂肪酸组成的分析评价

采用有机溶剂抽提了海桐属 2种植物 (海桐和皱叶海桐 )的籽油 ,使用气相色谱法 (GC)分析鉴定了其油脂的脂肪酸组分。 2种籽油均含有 6种脂肪酸 ,主要脂肪酸成分均为软脂酸 (C16∶0 )和油酸 (C18∶1)。其含量 ( % )分别为 :软脂酸 (C16∶0 ) 2 9.66,3 4 .72 ;油酸 (C18∶1) 66.4 3 ,62 .54。这两种油脂中 ,单不饱和脂肪酸油酸占优势 ,因而品质优良。提示海桐属植物籽油可作为保健型食用油研究和开发利用     

Reducing saturated fatty acids in Arabidopsis seeds by expression of a Caenorhabditis elegans 16:0–specific desaturase

Plant oilseeds are a major source of nutritional oils. Their fatty acid composition, especially the proportion of saturated and unsaturated fatty acids, has important effects on human health. Because intake of saturated fats is correlated with the incidence of cardiovascular disease and diabetes, a goal of metabolic engineering is to develop oils low in saturated fatty acids. Palmitic acid (16:0) is the most abundant saturated fatty acid in the seeds of many oilseed crops and in Arabidopsis thaliana. We expressed FAT–5, a membrane‐bound desaturase cloned from Caenorhabditis elegans, in Arabidopsis using a strong seed‐specific promoter. The FAT‐5 enzyme is highly specific to 16:0 as substrate, converting it to 16:1?9; expression of fat‐5 reduced the 16:0 content of the seed by two‐thirds. Decreased 16:0 and elevated 16:1 levels were evident both in the storage and membrane lipids of seeds. Regiochemical analysis of phosphatidylcholine showed that 16:1 was distributed at both positions on the glycerolipid backbone, unlike 16:0, which is predominately found at the sn‐1 position. Seeds from a plant line homozygous for FAT–5 expression were comparable to wild type with respect to seed set and germination, while oil content and weight were somewhat reduced. These experiments demonstrate that targeted heterologous expression of a desaturase in oilseeds can reduce the level of saturated fatty acids in the oil, significantly improving its nutritional value.     

Fatty acid makeup of the lipids in soil and epiphytic yeasts]

The fatty acid composition of lipids was compared among yeast cultures belonging to the genera Rhodotorula, Lipomyces, and Cryptococcus. These lipids contain C10--C26 fatty acids, mainly with the even number of carbon atoms. Palmitic acid (C16 : 0) and oleic acid (C18 : 0) predominate. In the majority of the strains, the sum of unsaturated acids exceeds the sum of saturated acids. The content of unsaturated acids in the lipids of the epiphytic yeast Rhodotorula is higher than in the soil yeast Lipomyces. Besides C12--C18 acids, C22--C26 acids were identified by GLC at preset temperatures. Lignoceric acid (C24 : 0) was found for the first time in the cultures of Rhodotorula, Lipomyces, and Cryptococcus, and cerotinic acid (C16 : 0) was also detected in the Rhodotorula yeast. Fatty acids with a long chain are registered in the strains of Rhodotorula more often than in the strains of Lipomyces and Cryptococcus.