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。     

中国樟科木姜子属植物纪要*

描述一新种即沧源木姜子Litsea cangyuanensis J. Li et H. W. Li; 一中国新纪录种白叶木姜子L1albescens
( Hook. f. ) D. G. Long; 3 个新异名: 大叶木姜子L1 chunii Cheng var1longipedicellata Yang f1 latif olia Yang 归并到高
山木姜子L1 chunii Cheng, 狭叶桂北木姜子M1 subcoriacea Yang et P. H. Huang var. stenophylla Yang et P. H.
Huang 归并入桂北木姜子L1 subcoriacea Yang et P. H. Huang, 狭叶华南木姜子L1greenmaniana Allen var1 angustifolia
Yang et P. H. Huang 归入华南木姜子L1greenmaniana Allen; 思茅木姜子L1szemaois ( H. Liou) J. Li et H. W. Li
作为新等级提升为种; 并对秃净木姜子L1 kingii Hook. f. 与山鸡椒L1 cubeba ( Lour . ) Pers. 两者间的差异进
行澄清, 对台湾产的黄肉树应采用L1 hypophaea Hayata 和广西产的蜂窝木姜子应采用L1f oveola Kosterm. 进
行了讨论。一个新名称: L1 sinoglobosa J. Li et H. W. Li 替代同名的L1 globosa Yang et P. H. Huang 。     

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     

Isolation and Identification of Fatty Acid Component from Seed Oil of Microula sikkimensis (Clarke) Hemsl

The seed oil content of Microula sikkimensis (Clarke) Hemsl. is up to 45% There is 8.1% of γ-linolenic acid which has the pharmacological action in the fatty acids composition, It has showed that this oil has a stronger effect on reducing triglyceride in serum. Fifteen different kinds of fatty acids were analysed. The unsaturated C20, C22, C24 acid, C18 triene-acid and tetraene-acid of the seed oil were separated on AgNO3-silica gel column and HPLC. and were identified by Periodata-Permanganate Oxidation, GLC, IR, UV, and MS. They are cis-11-eicosenoic, cis-13-docosenoic, cis-15-tetracosenoic, cis-6,9,12-octadecatrienoic and cis-6,9,12,15- octadecatetraenoic acids.     

Characterization of seed oils from fresh Bokbunja (Rubus coreanus Miq.) and wine processing waste

The physicochemical characteristics, fatty acid (FA) profile, and triacylglyceride (TAG) composition of seed oils from fresh Bokbunja (Rubus coreanus Miq.) fruits and traditional Bokbunja wine processing waste were determined in this study. Oil contents of the fresh seeds and the seeds from wine processing waste were similar, accounting for about 18% of dry weight. The free fatty acid (FFA) content between the two seed oils was significantly different (0.50% for fresh seed oil and 73.14% for wine seed oil). Iodine, conjugated diene, saponification values, and unsaponifiable matter were very similar in the oil samples, but the specific extinction coefficients at 232 and 270 nm of wine seed oil were higher than those of fresh seed oil. Linoleic (C18:2, 50.45-53.18%, L) and linolenic (C18:3, 29.36-33.25%, Ln) acids were the dominant FAs in the two seed oils, whereas oleic (C18:1, 7.32-8.04%, O), palmitic (C16:0, 1.55-1.65%, P), and stearic (C18:0, 0.65-0.68%, S) acids were the minor FAs. LLL, OLL, LLLn, OOL, LLnLn, and OOO were the abundant TAGs, representing >90% of the oils.     

Analysis of the fixed oils of the genus Nigella L. (Ranunculaceae) in Turkey

The fatty acid composition of fixed oils obtained from the seeds of 10 species of Nigella (Nigella orientalis L., Nigella oxypetala L., Nigella latisecta P.H. Davis, Nigella segetalis Bieb., Nigella arvensis L., Nigella damascena L., Nigella elata Boiss., Nigella nigellastrum (L.) Willk., Nigella unguicularis (Lam.) Spenner, and Nigella lancifolia Hub.-Mor.) from Turkey have been investigated. The seeds contained 17.6–41.3% fixed oils. Linoleic (31.21–69.5%) and oleic acids (15.79–36.03%) were the major fatty acids in the oils. Eicosenoic acid was found in high amounts in the oils of N. nigellastrum and N. unguicularis seeds (23.12 and 17.47%, respectively). N. nigellastrum, N. elata and N. unguicularis seed oils showed the highest concentration of eicosadienoic acid (9.40, 8.39 and 7.17%, respectively). In all fixed oils, the quantities of unsaturated fatty acids were higher than those of the saturated analogues.     

Metabolic engineering of fatty acid biosynthetic pathway in sesame (<Emphasis Type="Italic">Sesamum indicum</Emphasis> L.): assembling tools to develop nutritionally desirable sesame seed oil

Vegetable oils are an essential component of human diet, in terms of their health beneficial roles. Despite their importance, the fatty acid profile of most commonly used edible oil seed crop plants are imbalanced; this skewed ratio of fatty acids in the diet has been shown to be a major reason for the occurrence of cardiovascular and autoimmune diseases. Until recently, it was not possible to exert significant control over the fatty acid composition of vegetable oils derived from different plants. However, the advent of metabolic engineering, knowledge of the genetic networks and regulatory hierarchies in plants have offered novel opportunities to tailor-made the composition of vegetable oils for their optimization in regard to food functionality and dietary requirements. Sesame (Sesamum indicum L.) is one of the ancient oilseed crop in Indian subcontinent but its seed oil is devoid of balanced proportion of ω-6:ω-3 fatty acids. A recent study by our group has shed new lights on metabolic engineering strategies for the purpose of nutritional improvement of sesame seed oil to divert the carbon flux from the production of linoleic acid (C18:2) to α-linolenic acid (C18:3). Apart from that, this review evaluates current understanding of regulation of fatty acid biosynthetic pathways in sesame and attempts to identify the major options of metabolic engineering to produce superior sesame seed oil.     

Studies on the Chemical Constituents of Fruits of Lindera glauca (Sieb. et Zuec.) Bl. and Their Uses

The paper presents the chemical constituents of fruits of Lindera glauca (Sieb. et Zucc.) B1. By applying the techniques of fractional distillation, column chromatography, GC, TLC, PC, chemical methods and spectroscopic data (IR, NMR and MS), the following chemical constituents in essential oils from the fruits and the fatty acids of fatty oil from seed have been identified: There are 13 components in essential oil—α-pinene (0.03%), β-pinene (2.75%), camphene (2.27%), ocimene (77.99%), nonyl aldehyde (1.08%), capric aldehyde (0.30%), 1,8-cincol (2.47%), borneol (0.21%), citral (0.42%), β-cymene (0.63%), safrole (2.60%), bornyl acetate (0.60%), γ-patehoulene (0.69%); 6 fatty acids in fatty oilcaprylic acid (0.28%), eapric acid (55.27%), lauric acid (32.21%), myristic acid (1.18%), palmitie acid (2.72%) and stearie acid (8.94%). In addtion, the use of essential oil of fruit and fatty oil of seed has been studied.     

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.     

Heterologous expression of a fatty acid hydroxylase gene in developing seeds of<Emphasis Type="Italic"> Arabidopsis thaliana</Emphasis>

Expression of a cDNA encoding the castor bean ( Ricinus communis L.) oleate Delta12-hydroxylase in the developing seeds of Arabidopsis thaliana (L.) Heynh. results in the synthesis of four novel hydroxy fatty acids. These have been previously identified as ricinoleic acid (12-hydroxy-octadec- cis-9-enoic acid: 18:1-OH), densipolic acid (12-hydroxy-octadec- cis-9,15-enoic acid: 18:2-OH), lesquerolic acid (14-hydroxy-eicos- cis-11-enoic acid: 20:1-OH) and auricolic acid (14-hydroxy-eicos- cis-11,17-enoic acid: 20:2-OH). Using mutant lines of Arabidopsis that lack the activity of the FAE1 condensing enzyme or FAD3 ER Delta-15-desaturase, we have shown that these enzymes are required for the synthesis of C20 hydroxy fatty acids and polyunsaturated hydroxy fatty acids, respectively. Analysis of the seed fatty acid composition of transformed plants demonstrated a dramatic increase in oleic acid (18:1) levels and a decrease in linoleic acid (18:2) content correlating to the levels of hydroxy fatty acid present in the seed. Plants in which FAD2 (ER Delta12-desaturase) activity was absent showed a decrease in 18:1 content and a slight increase in 18:2 levels corresponding to hydroxy fatty acid content. Expression of the castor hydroxylase protein in yeast indicates that this enzyme has a low level of fatty acid Delta12-desaturase activity. Lipase catalysed 1,3-specific lipolysis of triacylglycerol from transformed plants demonstrated that ricinoleic acid is not excluded from the sn-2 position of triacylglycerol, but is the only hydroxy fatty acid present at this position.     

sn-1-Acylglycerol-3-phosphate acyltransferase of Escherichia coli causes insertion of cis-11 eicosenoic acid into the sn-2 position of transgenic rapeseed oil

The plsC gene of Escherichia coli encoding sn-1-acylglycerol-3-phosphate acyltransferase was modified by inserting an endoplasmic reticulum retrieval signal to its 3 end and introduced into rapeseed (Brassica napus L.) plants under the control of a napin promotor. In developing seeds from transgenic plants an sn-1-acylglycerol-3-phosphate acyltransferase activity was detectable which showed substrate specificities typical of the E. coli enzyme. Moreover, seed oil from the transformants unlike that from untransformed plants contained substantial amounts of triacylglycerol species esterified with very-long-chain fatty acids at each glycerol position. Analysis of fatty acids at the sn-2 position of triacylglycerol showed hardly any very-long-chain fatty acids in untransformed plants, but in certain transformants these fatty acids were present, namely about 4% erucic acid and 9% eicosenoic acid. These data demonstrate that the bacterial acyltransferase can function in developing rapeseed and alters the stereochemical composition of transgenic rape seed oil by directing very-long-chain fatty acids, especially cis-11 eicosenoic acid, to its sn-2 position.     

白花益母草种子的化学成分分析

对白花益母草种子的化学成分进行分析,结果表明,种子油含有大量人体必需的不饱和脂肪酸,其主要成分为：亚油酸（42．60％）、亚麻酸（30．22％）、油酸（20．28％）等,此外种子还含有18种氨基酸和24种矿质元素和蛋白质等成分。其种子和种子油具有较高的营养价值和药用功效。     

Fatty acid composition of the cold-water-inhabiting freshwater red alga Sirodotia Kylin

Four samples of freshwater alga Sirodotia (class Rhodophyceae) collected from two distinct streams in the Mahabaleshwar, Satara district (1,732 m a.s.l.) of the Western Ghats of Maharashtra (India) were analysed for their fatty acid content. The presence of 32 fatty acids was revealed, of which 13 were saturated (SFA), 8 were monounsaturated (MUFA) and 11 were polyunsaturated (PUFA) fatty acids. The major finding was the presence of three pharmaceutically and neutraceutically important PUFAs: arachidonic acid (AA), eicosapentanoeic acid (EPA), and docosahexanoiec acid (DHA). The major fatty acids identified were palmitic (16:0), cis-11,14 icodienoic (20:2), behenic (22:0), cis-8,11,14 eicosatrienoic(20:3n6), cis-4,7,10,13,16,19 docosahexanoeic (22:6n3), cis-13,16 docosadienoic (22:2), erucic (22:1n9), -5,8,11,14,17 eicosapentaenoic (20:5n3), trichosonoic (23:0), nervonic (24:0), arachidonic (20:4n6), cis-10 pentadecanoic (15:1), cis-11,14,17 eicosatrienoic (20:3n3), and myristic acid (14:0). The total PUFA contents ranged from 31.45 to 40.37%. The fatty acids were characterised by the relatively high abundance of PUFAs, while C20 unsaturated acids were appreciably more abundant than C18 unsaturated acids. This is the first report on fatty acid profiles of the genus Sirodotia.     

Chemical composition of the fixed and volatile oils of Nigella sativa L. from Iran

The chemical composition of the extracted fixed oil (total fatty acid composition) and volatile oil of Nigella sativa L. seeds grown in Iran were determined by GC and GC/MS. Eight fatty acids (99.5%) and thirty-two compounds (86.7%) have been identified in the fixed and volatile oils, respectively. The main fatty acids of the fixed oil were linoleic acid (55.6%), oleic acid (23.4%), and palmitic acid (12.5%). The major compounds of the volatile oil were trans-anethole (38.3%), p-cymene (14.8%), limonene (4.3%), and carvone (4.0%).     

Glycosides of polyenoic branched fatty acids from myxomycetes

The determination of chemical structures of five novel compounds, i.e. one multibranched polyunsaturated fatty acid ((2E,4E,7S,8E,10E,12E,14S)-7,9,13,17-tetramethyl-7,14-dihydroxy-2,4,8,10,12,16-octadecahexaenoic acid) and its four glycosides from seven different myxomycetes is described. The absolute configuration of both hydroxyl groups was determined. The glycosides containing glucose, mannose and rhamnose. These compounds were identified by means of 1H and 13C NMR, MS, UV and IR spectra. Three of them were identified in Arcyria cinerea (Bull.) Pers., two in A. denudata (L.) Wetts., and A. nutans (Bull.) Grev., Fuligo septica (L.) Wigg., Lycogala epidendrum (L.) Fries, Physarum polycephalum Schwein., and Trichia varia Pers. contained one of the identified glycosides each.     

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.     

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.     

Influence of exogenous natural oils on the omega-1 and omega-2 hydroxy fatty acid moiety of sophorose lipid produced by Candida bombicola

Candida bombicola can synthesize monohydroxy fatty acid as a moiety of sophorose lipids. The hydroxy fatty acids contained in a major lactone were identified by GC-MS, after culturing with natural oils such as coconut, rapeseed, olive, and soybean oils. Hydroxy fatty acids of C18 and C16 were always synthesized, but differences were observed among the oils regarding the positions of hydroxyl groups, unsaturation, and composition of the fatty acids. A new C17 hydroxy acid was found without addition of oil.     

Fatty acid composition of two Tunisian pine seed oils

Oils were extracted from fully ripen Pinus pinea L. and Pinus halepensis Mill seeds and fatty acid composition has been established by capillary gas chromatography. Seeds are rich in lipids, 34.63-48.12% on a dry weight basis. Qualitatively, fatty acid composition of both species is identical. For P. halepensis linoleic acid is the major fatty acid (56.06% of total fatty acids) followed by oleic (24.03%) and palmitic (5.23%) acids. For P. pinea, the same fatty acids are found with the proportions 47.28%, 36.56%, and 6.67%, respectively. Extracted fatty acids from both species are mainly unsaturated, respectively, 89.87% and 88.01%. Pinus halepensis cis-5 olefinic acids are more abundant (7.84% compared to 2.24%). Results will be important as a good indication of the potential nutraceutical value of Pinus seeds as new sources of fruit oils rich in polyunsaturated fatty acids and cis-5 olefinic acids.     

Effects of dietary supplementation with sea buckthorn (Hippophaë rhamnoides) seed and pulp oils on atopic dermatitis

A placebo-controlled, double-blind study was conducted to investigate the effects of seed and pulp oils of sea buckthorn (Hipphophae rhamnoides) on atopic dermatitis. Linoleic (34%), alpha-linolenic (25%), and oleic (19%) acids were the major fatty acids in the seed oil, whereas palmitic (33%), oleic (26%), and palmitoleic (25%) acids were the major fatty acids in the pulp oil. The study group included 49 atopic dermatitis patients who took 5 g (10 capsules) of seed oil, pulp oil, or paraffin oil daily for 4 months. During follow-up dermatitis improved significantly in the pulp oil (P < 0.01) and paraffin oil (P < 0.001) groups, but improvement in the seed oil group was not significant (P = 0.11). Supplementation of seed oil increased the proportion of alpha-linolenic acid in plasma neutral lipids (P < 0.01), and increases of linoleic, alpha-linolenic, and eicosapentaenoic acids in plasma phospholipids were close to significant (0.05 < P < 0.1). Pulp oil treatment increased the proportion of palmitoleic acid (P < 0.05) and lowered the percentage of pentadecanoic acid (P < 0.01) in both plasma phospholipids and neutral lipids. In the seed oil group, after 1 month of supplementation, positive correlations were found between symptom improvement and the increase in proportions of alpha-linolenic acid in plasma phospholipids (Rs = 0.84; P = 0.001) and neutral lipids (Rs = 0.68; P = 0.02). No changes in the levels of triacylglycerols, serum total, or specific immunoglobulin E were detected. In the pulp oil group, a significant (P < 0.05) increase in the level of high density lipoprotein cholesterol, from 1.38 to 1.53 mmol/L was observed.