天然配比油对家兔肝组织中脂肪酸的影响

目的　研究天然配比油对家兔肝组织中脂肪酸的影响。方法　用GC法测定 5 0只家兔喂天然配比油 90d肝组织脂肪酸组分和含量的变化。结果　猪油对照组中 14∶0、18∶1和MUFA明显增高 ;三个配比油组α18∶3水平明显增高 ,14∶0明显降低 ,配 1组的α18∶3含量最高 ,配 2和配 3组的γ18∶3和 18∶2含量明显增高、18∶1和MU FA无明显变化。结论　补充三种配比油均可提高体内n3系多烯脂酸水平 ;配比 2和配比 3油还可提高n6 系多烯脂酸质量、抑制 18∶1升高 ,治疗高脂血症效果较好     

渗透促进剂对紫草素透过大鼠腹部皮肤的作用

研究不同浓度的丙二醇、氮酮和油酸对紫草素透过大鼠腹部皮肤的影响．实验结果表明,不同浓度的丙二醇对紫草素经皮渗透均有促进渗透作用,丙二醇浓度为10％时促渗效果最佳,油酸也具有促进紫草素的经皮渗透作用,但是在本实验中氮酮抑制紫草素的经皮渗透。     

Mapping of a QTL for oleic acid concentration in spring turnip rape (Brassica rapa ssp. oleifera)

Bulk segregant analysis was used to search for RAPD (random amplified polymorphic DNA) markers linked to gene(s) affecting oleic acid concentration in an F₂ population from the Brassica rapa ssp. oleifera cross Jo4002 x a high oleic acid individual from line Jo4072. Eight primers (=8 markers) out of 104 discriminated the high and low bulks consisting of extreme individuals from the oleic acid distribution. These markers were analysed throughout the entire F₂ population, and their association with oleic acid was studied using both interval mapping and ANOVA analysis. Six of the markers mapped to one linkage group. A quantitative trait locus (QTL) affecting oleic acid concentration was found to reside within this linkage group with a LOD score >15. The most suitable marker for oleic acid content is OPH-17, a codominant marker close (<4cM) to the QTL. The mean seed oleic acid content in the F₂ individuals carrying the larger allele of this marker was 80.14±9.76%; in individuals with the smaller allele, 54.53±6.83%; in the heterozygotes, 65.47±8.15%. To increase reproducibility, the RAPD marker was converted into a SCAR (sequence characterized amplied region) marker with specific primers. Marker OPH-17 can be used to select spring turnip rape individuals with the desired oleic acid content.     

Liquid chromatography–mass spectrometry and gas chromatography–mass spectrometry of ω- and (ω-1)-hydroxylated metabolites of elaidic and oleic acids in human and rat liver microsomes

In order to characterize the nature of the active site of cytochrome P450 2E1, the metabolism of various fatty acids with cis/trans geometric configurations has been investigated. A system coupling atmospheric pressure chemical ionization-mass spectrometry detection with HPLC separation was developed as an alternative method for the characterization of hydroxylated metabolites of oleic and elaidic acids in rat and human liver microsomes. Oxidation of oleic and elaidic acids led to the formation of two main metabolites which were identified by LC–MS and GC–MS as ω and (ω-1)-hydroxylated (or 17-OH and 18-OH) fatty acids, on the basis of their pseudo-molecular mass and their fragmentation. The assay was accurate and reproducible, with a detection limit of 25 ng per injection, a linear range from 25 to 1128 ng per injection, no recorded interference, intra-day and inter-day precision with variation coefficients <14%. This LC–MS method was validated with oleic acid by using both radiometric and mass spectrometric detections. A significant correlation was found between the two methods in human (r=0.86 and 0.94 with P<0.05 and 0.01) and rat liver microsomes (r =0.90 and 0.85 with P<0.01 and 0.05) for 17-OH and 18-OH metabolites, respectively. HPLC coupled to mass spectrometry for the analysis of hydroxylated metabolites of elaidic acid offers considerable advantages since the method does not require use of a radioactive molecule, completely separates the two hydroxymetabolites, confirms the identification of each metabolite, and is as sensitive as the radiometric analysis method. This method allowed the comparative study of oleic and elaidic acid hydroxylations by both human and rat liver microsomal preparations.     

Possible Involvement of Mitogen-Activated Protein Kinase in Phospholipase D Activation Induced by H2O2, but Not by Carbachol, in Rat Pheochromocytoma PC12 Cells

Abstract: We have previously reported that hydrogen peroxide (H₂O₂) induced a considerable increase of phospholipase D (PLD) activity and phosphorylation of mitogen-activated protein (MAP) kinase in PC12 cells. H₂O₂-induced PLD activation and MAP kinase phosphorylation were dose-dependently inhibited by a specific MAP kinase kinase inhibitor, PD 098059. In contrast, carbachol-mediated PLD activation was not inhibited by the PD 098059 pretreatment whereas MAP kinase phosphorylation was prevented. These findings indicated that MAP kinase is implicated in the PLD activation induced by H₂O₂, but not by carbachol. In the present study, H₂O₂ also caused a marked release of oleic acid (OA) from membrane phospholipids in PC12 cells. As we have previously shown that OA stimulates PLD activity in PC12 cells, the mechanism of H₂O₂-induced fatty acid liberation and its relation to PLD activation were investigated. Pretreatment of the cells with methylarachidonyl fluorophosphonate (MAFP), a phospholipase A₂ (PLA₂) inhibitor, almost completely prevented the release of [³H]OA by H₂O₂ treatment. From the preferential release of OA and sensitivity to other PLA₂ inhibitors, the involvement of a Ca²⁺-independent cytosolic PLA₂-type enzyme was suggested. In contrast, to OA release, MAFP did not inhibit PLD activation by H₂O₂. The inhibitory profile of the OA release by PD 098059 did not show any correlation with that of MAP kinase. These results lead us to suggest that H₂O₂-induced PLD activation may be mediated by MAP kinase and also that H₂O₂-mediated OA release, which would be catalyzed by a Ca²⁺-independent cytosolic PLA₂-like enzyme, is not linked to the PLD activation in PC12 cells.     

Trypanosoma cruzi: Fatty acid metabolism in vitro

Trypanosoma cruzi populations, composed primarily of trypomastigote forms, readily converted palmitic acid, linoleic acid, oleic acid, and stearic acid to CO₂. Appreciable amounts of carbon from these four fatty acids were also incorporated into neutral and phospholipid lipids by these parasites. Palmitic acid, a 16 carbon saturated fatty acid, was converted at rates greater than those of the other three fatty acids.     

Pan1p, an actin cytoskeleton-associated protein, is required for growth of yeast on oleate medium

Pan1p is a yeast actin cytoskeleton-associated protein localized in actin patches. It activates the Arp2/3 complex, which is necessary for actin polymerization and endocytosis. We isolated the pan1-11 yeast mutant unable to grow on oleate as a sole carbon source and, therefore, exhibiting the Oleate- phenotype. In addition, mutant cells are temperature-sensitive and grow more slowly on glycerol or succinate-containing medium but similarly to the wild type on ethanol, pyruvate or acetate-containing media; this indicates proper functioning of the mitochondrial respiratory chain. However, growth on ethanol medium is compromised when oleic acid is present. Cells show growth arrest in the apical growth phase, and accumulation of cells with abnormally elongated buds is observed. The growth defects of pan1-11 are suppressed by overexpression of the END3 gene encoding a protein that binds Pan1p. The morphology of peroxisomes and induction of peroxisomal enzymes are normal in pan1-11, indicating that the defect in growth on oleate medium does not result from impairment in peroxisome function. The pan1-11 allele has a deletion of a fragment encoding amino acids 1109-1126 that are part of (QPTQPV)7 repeats. Surprisingly, the independently isolated pan1-9 mutant, which expresses a truncated form of Pan1p comprising aa 1-859, is able to grow on all media tested. Our results indicate that Pan1p, and possibly other components of the actin cytoskeleton, are necessary to properly regulate growth of dividing cells in response to the presence of some alternative carbon sources in the medium.     

Isolation and characterization of a lipoxygenase from Pseudomonas 42A2 responsible for the biotransformation of oleic acid into (S)-(E)-10-hydroxy-8-octadecenoic acid

The isolation of a new lipoxygenase-like (LOX-like) enzyme from Pseudomonas 42A2 and its characterization is described. The enzyme, located in the periplasm of the cell, which contained 0.55 mol of Fe2+ per mol of protein, is monomeric and has a molecular mass of 45 kDa. In the presence of oxygen, the enzyme converts oleic acid into (E)-10-hydroperoxy-8-octadecenoic acid (HPOD), which decomposes to the corresponding (E)-10-hydroxy-8-octadecenoic acid (HOD). The absolute configuration of this acid was determined as S on the basis of exciton-coupled CD data, and specific rotation and NMR analysis of the corresponding p -bromobenzoate derivative. The reaction in vivo leads to the dihydroxy derivative (E)-7,10-dihydroxy-8-octadecenoic acid (DHOD), so that the three hydroxy-fatty acids can be isolated from the culture medium. The activity of the enzyme was optimal between 25 and 30 degrees C and 44% of its activity still remained at 55 degrees C. Its optimal pH is 8.5-9; and the presence of magnesium ions increased LOX activity by 1.5. The activity of the LOX is highest in unsaturated fatty acids containing double bonds in position 9 (oleic, linoleic and linolenic acids), linoleic acid being preferred (100% activity) over linolenic (60.4%) and oleic acids (46%). However, kinetic studies showed that the affinity of the enzyme is similar for the three substrates.     

Lipase mediated simultaneous esterification and epoxidation of oleic acid for the production of alkylepoxystearates

Epoxy alkylstearates were synthesized by lipase catalysed esterification and perhydrolysis followed by epoxidation of oleic acid in a one-pot process. Immobilized Candida antarctica lipase (Novozym^®435) was used as the catalyst. The esterification reaction occurred relatively quickly and was followed by epoxidation of the alkyl ester and the remaining fatty acid. Higher degree of esterification was achieved with n-octanol, n-hexanol and n-butanol as compared to that with ethanol and iso-propanol. The rate and yield of epoxidation was enhanced with iso-propanol but was lowered with the other alcohols. The lipase suffered significant loss in activity during the reaction primarily due to hydrogen peroxide. The presence of alcohols, in particular ethanol, further contributed to the enzyme inactivation. The epoxidation reaction could be improved by step-wise addition of the lipase.     

Crystal structures and chemical composition of leaf surface wax depositions on the desert moss Syntrichia caninervis

The structures and composition of cuticular waxes deposited on the leaves of a typical desert moss, Syntrichia caninervis, were investigated. The wax crystals deposited on leaves shifted with leaf aging. The results of chemical analysis showed the main chemical components of the moss wax were fatty acids, alcohols and alkanes. Leaf aging increased the content of cuticular wax and the percentage of very long chain components, from 1150 μg g⁻¹ DW and 13.6% in younger leaves to 2640 μg g⁻¹ DW and 37.2% in aged leaves, respectively. Dehydration/hydration also augmented the wax content by 35.17% in juvenile leaves and by 1900% in lab-cultivated leaves after three-cycle treatments. Synthesis of hexadecanoic acid and tetracosane were predicted to be the first step of wax accumulation. The responses of cuticular waxes in crystal structure and chemical composition were recommended as a biomonitor for assessing the shift of ecological and environmental quality.