Global ETD Search

1	The effects of linoleate on insulin action in skeletal muscle cells Cazzolli, Rosanna, St Vincents Campus, UNSW January 2005 (has links) Emerging evidence suggests that an important mechanism for the negative feedback control of insulin signalling involves the inhibition of tyrosine phosphorylation of IRS-1 by its prior serine/threonine (ser/thr) phosphorylation. IRS-1 ser/thr phosphorylation has been linked to the dissociation of IRS-1 from the insulin receptor and PI3K, and its degradation via a proteasome-dependent pathway. Studies in animal models have shown that increases in plasma free fatty acids (FFAs) are associated with reduced IRS-1-signalling, and so it has been postulated that elevated FFA cause insulin resistance by activating pathways that negatively regulate insulin action, including hyper-phosphorylation of ser/thr residues in IRS-1. We have shown that in the case of linoleate-induced insulin resistance in L6 rat skeletal muscle cells, the inhibition of IRS-1-dependent signalling arises via effects on both the phosphorylation status and degradation of IRS-1, which are mediated, in part, by IKKb. In addition, the reduction of IRS-1 mRNA levels allude to transcriptional effects of linoleate treatment that also contribute to the observed reduction in the total levels of this protein. PtdOH, particularly dilinoleoyl PtdOH, was found to be significantly increased in linoleate treated L6 cells, and sufficient to induce at least some of the effects on insulin-signalling that are observed upon linoleate treatment. It is unlikely, however, that IKKb and PtdOH are components of the same inhibitory pathway, since inhibiting IKKb activity did not alleviate the effects of PtdOH on IRS-1 tyrosine (tyr) phosphorylation. Moreover, although an integral component of the mechanism by which linoleate induces insulin-resistance in L6 cells, it appears that restoring IRS-1 function in linoleate treated cells is not sufficient to reverse insulin resistance. Hence, we hypothesise that linoleate induces multiple inhibitory pathways in L6 cells, with at last two of these involving IKKb- and PtdOH-dependent inhibition of IRS-1 signalling, which act in parallel to reduce glucose disposal and cause insulin resistance in this model. insulin signalling type 2 diabetes linoleate IRS-1 phosphatidic acid
2	Investigating Idebenone and Idebenone Linoleate Metabolism: In Vitro Pig Ear and Mouse Melanocyte Studies Wempe, Michael F., Lightner, Janet W., Zoeller, Elizabeth L., Rice, Peter J. 02 September 2009 (has links) Objective: The aim of this study was to investigate inherent in vitro permeability, metabolism, and cytotoxicity of idebenone - an active used to protect skin as an anti-aging agent -and compare it to idebenone linoleate. Methods: Idebenone and idebenone linoleate were investigated in pig ear skin and melanoma (B16: F10 mouse) cells. Diffusion experiments were conducted at 37 °C (bath temperature) using Franz diffusion cells. Authentic metabolite samples were synthetically prepared. Samples were analyzed using liquid chromatography-mass spectrometry/mass spectrometry. Cell viability was determined via the 3-[4,5-dimethylthiazol-2-yl]-2,5-diphenyl tetrazolium bromide (MTT) assay. Results: Idebenone was shown to permeate across viable porcine ear tissue; there was no evidence that idebenone linoleate permeated across porcine ear tissue after 4 h. Idebenone was metabolized to idebenone acid in both pig ear and mouse melanocytes; only minor idebenone linoleate metabolism was observed. Idebenone displayed delayed in vitro toxicity (via MTT assay) in melanocytes, while idebenone linoleate displayed no such in vitro toxicity. Conclusions: The in vitro metabolism and cytotoxicity results suggest that metabolic activation of idebenone is the likely culprit that activates the skin irritation mechanism via idebenone in vivo usage. An idebenone ester (e.g. idebenone linoleate) appears to provide a superior in vitro safety profile over idebenone. idebenone idebenone linoleate melanocytes pig ear diffusion studies Internal Medicine
3	Discovery of Novel Fatty Acid Dioxygenases and Cytochromes P450 : Mechanisms of Oxylipin Biosynthesis in Pathogenic Fungi Hoffmann, Inga January 2013 (has links) Dioxygenase-cytochrome P450 (DOX-CYP) fusion enzymes are present in diverse human and plant pathogenic fungi. They oxygenate fatty acids to lipid mediators which have regulatory functions in fungal development and toxin production. These enzymes catalyze the formation of fatty acid hydroperoxides which are subsequently converted by the P450 activities or reduced to the corresponding alcohols. The N-terminal DOX domains show catalytic and structural homology to mammalian cyclooxygenases, which belong to the most thoroughly studied human enzymes. 7,8-Linoleate diol synthase (LDS) of the plant pathogenic fungus Gaeumannomyces graminis was the first characterized member of the DOX-CYP fusion enzyme family. It catalyzes the conversion of linoleic acid to 8R-hydroperoxylinoleic acid (HPODE) and subsequently to 7S,8S-dihydroxylinoleic acid by its DOX and P450 domains, respectively. By now, several enzymes with homology to 7,8-LDS have been identified in important fungi, e.g., psi factor-producing oxygenase (ppo)A, ppoB, and ppoC, of Aspergillus nidulans and A. fumigatus. By cloning and recombinant expression, ppoA of A. fumigatus was identified as 5,8-LDS. Partial expression of the 8R-DOX domains of 5,8-LDS of A. fumigatus and 7,8-LDS of G. graminis yielded active protein which demonstrates that the DOX activities of LDS are independent of their P450 domains. The latter domains were shown to contain a conserved motif with catalytically important amide residues. As judged by site-directed mutagenesis studies, 5,8- and 7,8-LDS seem to facilitate heterolytic cleavage of the oxygen-oxygen bond of 8R-HPODE by aid of a glutamine and an asparagine residue, respectively. Cloning and expression of putative DOX-CYP fusion proteins of A. terreus and Fusarium oxysporum led to the discovery of novel enzyme activities, e.g., linoleate 9S-DOX and two allene oxide synthases (AOS), specific for 9R- and 9S-HPODE, respectively. The fungal AOS are present in the P450 domains of two DOX-CYP fusion enzymes and show higher sequence homology to LDS than to plant AOS and constitute therefore a novel class of AOS. In summary, this thesis describes the discovery of novel fatty acid oxygenases of human and plant pathogenic fungi and the characterization of their reaction mechanisms. Fusion protein Linoleate diol synthase Allene oxide synthase Cyclooxygenase Oxygenase HPLC Mass spectrometry Hydroperoxide isomerase Aspergillus Fusarium oxysporum
4	Catalytic and Structural Properties of Heme-containing Fatty Acid Dioxygenases : Similarities of Fungal Dioxygenases and Cyclooxygenases Garscha, Ulrike January 2009 (has links) 7,8-Linoleate diol synthase (7,8-LDS) of the take-all pathogen of wheat, Gaeumannomyces graminis, converts linoleic acid to 8R-hydroperoxyoctadecadienoic acid (8-HPODE) by 8-dioxygenase activity (8-DOX), and further isomerizes the hydroperoxide to 7S,8S-dihydroxyoctadecadienoic acid (7,8-DiHODE) by hydroperoxide isomerase activity. Sequence alignment showed homology to prostaglandin H synthase (PGHS), and both enzymes share structural and catalytic properties. The 8-DOX of 7,8-LDS was successfully expressed in Pichia pastoris and in insect cells (Sf21). Site-directed mutagenesis confirmed His379 as the proximal heme ligand and Tyr376 as a residue, which forms a tyrosyl radical and initiates catalysis. Furthermore, mutagenesis suggested His203 could be the proposed distal histidine, and Tyr329 of catalytic relevance for substrate positioning at the active site. Aspergilli are ubiquitous environmental fungi. Some species, in particular Aspergillus fumigatus, are responsible for invasive aspergillosis, which is a life-threatening disease for immunocompromised patients. A. fumigatus and A. nidulans metabolized linoleic acid to 8R-HPODE, 10R-hydroperoxyoctadecadienoic acid (10R-HPODE), 5S,8R-dihydroxyoctadecadienoic acid, and 8R,11S-dihydroxyoctadecadienoic acid. When the genomes of certain Aspergilli strains were published, several species showed at least three homologous genes (ppoA, ppoB, ppoC- psi producing oxygenases) to 7,8-LDS and PGHS. Gene deletion identified PpoA as an enzyme with 8-DOX and 5,8-hydroperoxide isomerase activities, designated 5,8-LDS in homology to 7,8-LDS. In the same way, PpoC was identified as a 10-dioxygenase (10-DOX), which converts linoleic acid to 10R-HPODE. 10-DOX differs from LDS, since it dioxygenates linoleic acid at C-10, after hydrogen abstraction at C-8 and double bond migration. 10-DOX was cloned and expressed in insect cells. Leu384 and Val388 were found to be critical for dioxygenation at C-10. Mutation to the homologous residues of 5,8- and 7,8-LDS (Leu384Val, Val388Leu) increased oxygen insertion at C-8. LDS and 10-DOX are fusion proteins with a dioxygenase and a hydroperoxide isomerase (cytochrome P450) domain with a cysteine heme ligand. The P450 domain of 10-DOX lacked the crucial cysteine heme ligand and was without hydroperoxide isomerase activity. LDSs and 10-DOX are newly characterized heme containing fungal dioxygenases, with homology to PGHS of vertebrates. Their metabolites regulate reproduction, development, and act as signal molecules with the host after pathogen attack. dioxygenase prostaglandin H synthase Gaeumannomyces graminis Aspergilli hydroperoxide isomerase linoleate diol synthase cytochrome P450 oxylipin Pharmaceutical pharmacology Farmaceutisk farmakologi
5	Novel Fatty Acid Dioxygenases of Human and Plant Pathogenic Fungi : Studies by Gene Deletion and Expression Jernerén, Fredrik January 2011 (has links) The dioxygenase-cytochrome P450 fusion proteins (DOX-CYP) comprise a heme-containing enzyme family that shares structural and catalytic properties with mammalian prostaglandin H (PGH) synthases. 7,8-Linoleate diol synthase (7,8-LDS) of Gaeumannomyces graminis was first characterized, and DOX-CYP enzymes are of mechanistic and biological interest. The growing number of fungal genome sequences has revealed DOX-CYP homologues in medically and economically important species. The aim of this thesis was to identify novel members of the DOX-CYP fusion protein family. The devastating rice pathogen Magnaporthe oryzae contains two DOX-CYP genes. The fungus synthesizes 7S,8S-dihydroxyoctadecadienoic acid (7,8-DiHODE) by dioxygenation of linoleic acid to 8R-hydroperoxyoctadecadienoic acid (8R-HPODE), and subsequent isomerisation to the diol. 7,8-LDS of M. oryzae was identified by gene deletion, but the infection and reproduction processes of the Δ7,8-LDS strain were not altered. A mutant with constitutive protein kinase A activity profoundly changed the oxygenation profile, possibly due to post-translational modification. The human pathogens Aspergillus fumigatus and A. clavatus contain three DOX-CYP, designated psi producing oxygenase A (ppoA), ppoB, and ppoC, and form three oxylipins: 5S,8R-DiHODE, 8R,11S-DiHODE, and 10R-hydroxyoctadecadienoic acid. PpoA was identified as 5,8-LDS, and ppoC as 10R-DOX. The 8,11-linoleate hydroperoxide isomerase activity was reduced by two imidazole-containing P450 inhibitors, miconazole and 1-benzylimidazole. PpoB could not be linked to the biosynthesis of 8,11-DiHODE for the following reasons: First, the 8,11-hydroperoxide isomerase activity was retained in A. fumigatus ΔppoB strains. Second, the P450 domain of the deduced ppoB of A. clavatus lacks a heme-thiolate cysteine ligand, presumably essential for hydroperoxide isomerase activity. Linoleate 9R-DOX activities of Aspergillus terreus and Lasiodiplodia theobromae were discovered. 9R-HPODE was further converted into unstable allene oxides, as judged by the accumulation of their hydrolysis products, α- and γ-ketols. These allene oxide synthase activities were specific for 9R-hydroperoxides. The 9R-DOX and AOS were found to have unique characteristics. In conclusion, novel DOX-CYP enzymes were identified in human and plant pathogenic fungi. These enzymes might be involved in biological processes, and show interesting catalytic similarities to human PGH synthase and thromboxane synthase (CYP5A). aspergilli dioxygenase oxygenase Magnaporthe oryzae Gaeumannomyces graminis Lasiodiplodia theobromae jasmonic acid linoleate diol synthase cyclooxygenase prostaglandin H synthase cytochrome P450 oxylipin hydroperoxide isomerase allene oxide synthase Pharmaceutical pharmacology Farmaceutisk farmakologi
6	Augmentation du contraste de séparation des minéraux calciques semisolubles à l’aide de combinaisons de réactifs carboxyliques et non-ionique / Enhancing of separation contrast of calcium mineral using a mix of carboxylic and non-ionic collectors Lafhaj, Zineb 07 April 2017 (has links) La valorisation des minéraux calciques est un problème mondial. La flottation est une technique utilisée pour séparer ces minéraux puisqu’elle joue sur leurs propriétés superficielles. Cependant, c’est un défi scientifique important puisque les propriétés de surface des minéraux calciques sont très proches. Les difficultés de séparation de ces derniers sont donc dues, aux similitudes entre leurs propriétés chimiques de surface, mais aussi leurs propriétés électrocinétiques et leur stabilité en milieu aqueux. L’application des résultats de recherche fondamentale porte sur les minéraux purs dont 4 calcites et une apatite d’origines différentes. L’objectif principal est d’étudier les propriétés et les paramètres impliqués dans les mécanismes de séparation des minéraux calciques tels que l’importance de la solubilité, la spéciation de surface du minéral, la charge globale de la surface du minéral et la densité d’adsorption des tensio-actifs. Les propriétés électrocinétique permettent de déterminer le type de collecteur à employer pour faire flotter sélectivement les minéraux et pour choisir le pH optimal de séparation. Deux collecteurs, l’oléate et le linoléate de sodium (structure de la chaîne hydrocarbonée différente) ont été utilisés pour étudier la flottation des minéraux calciques. Une étude des mélanges de ces deux collecteurs avec différents ratios molaires a montré un contraste de séparation à pH 5 avec le ratio molaire 2 :1 à pH 5 et le ratio 1 :1 à pH 9. De plus, Les effets synergiques entre collecteur ionique (oléate ou linoléate de sodium) et non-ionique (PX type alcool) en présence ou non des déprimants tels que l’amidon et le silicate de sodium ont été étudiés pour améliorer la la sélectivité de la séparation calcite apatite. Les isothermes d’adsorption de l’oléate et du linoléate de sodium, en présence ou non d’un collecteur non-ionique, obtenus par la méthode de Gregory mettent en évidence leurs co-adsorption sur la surface de la calcite et de l’apatite. Ceci a aussi été confirmé par les déplacements des bandes de vibration symétriques et asymétriques des groupements CH2-CH3 sur les spectres infrarouges en réflexion diffuse. L’adsorption du linoléate de sodium sur la calcite orange présente différentes régions, ce qui peut être expliqué par une adsorption en multicouche résultant de la condensation bidimensionnelle du collecteur sur une surface hétérogène. Cependant, l’adsorption de l’oléate de sodium sur l’échantillon de calcite avec les impuretés de Mg est linéaire. L’apatite de Madagascar et la calcite optique présentent une saturation des sites d’adsorption à partir d’une concentration 3.10-5 M en oléate de sodium (CMC) / Valorization of calcium minerals is a global problem. Flotation is a technique used for the separation of these minerals since it plays on their surface properties. However, this is an important scientific challenge because the surface properties of calcium minerals are very similar. The difficulties of separation of these minerals are then due to the similarities between their chemical surface properties, but also their electrokinetic and their stability in aqueous solutions. The application of the basic research results will focus on 4 calcites and one apatite of different origins. The main objective is to study the properties and parameters involved in the separation mechanisms of calcium minerals such as the importance of the solubility, the surface speciation of the mineral, the overall loading of the mineral surface and the density of adsorption of surfactants. The electrokinetic properties therefore make it possible to determine the type of collector to be used to selectively float the minerals and to choose the optimum separation pH. Two collectors, sodium oleate and linoleate (different semi-developed formula), were used to study the flotation of calcium minerals. The mixture of these two collectors with different molar ratios was also studied showing a separation contrast at pH 5 with the molar ratio 2: 1 and the ratio 1: 1 at pH 9. In addition, the synergistic effects between ionic collector (oleate or sodium linoleate) and non-ionic (PX alcohol type) in the presence or absence of depressants such as starch and sodium silicate have been studied to improve recovery and selectivity. The adsorption isotherms of sodium oleate and linoleate, in the presence or absence of a non-ionic collector, obtained by the Gregory method demonstrate their co-adsorption on the surface of calcite and apatite. This was also confirmed by the displacements of the symmetric and antisymmetric vibration bands of the CH2-CH3 groups on the infrared spectra in diffuse reflectance. The adsorption of sodium linoleate on one of the calcite minerals (calcite orange) shows different regions which can be explained by multi-layer adsorption resulting from the two-dimensional condensation of the collector on a heterogeneous surface. However, the adsorption of sodium oleate on calcite orange is linear. The apatite from Madagascar and calcite optical have a saturation of the adsorption sites from a concentration of 3.10-5 M in sodium oleate (CMC) Flottation Minéraux calciques Potentiel zêta Chimie de surface Adsorption Oléate de sodium Linoléate de sodium Collecteur non-ionique Flotation Calcium mineral Zeta potential Chemical surface Adsorption Sodium oleate Sodium linoleate Collector no-ionic 622.7 541.33
7	Analýza reologických vlastností rostlinných olejů a jejich složek / Analysis of the rheological properties of vegetable oils and their components Divílek, Petr January 2014 (has links) This Master’s thesis is dealing with theoretical analysis of vegetable, mineral oils and synthetic fluids, and with measuring of density and viscosity of selected samples of electric insulating fluids. The main part of the thesis is focused on vegetable oils and their elements called fatty acids. Those are more detail described in separate capitols. In those capitols is described their utilization in engineering practice with focus on energetics, where vegetable oils are used in larger scale. In experimental part of the work is measurement of density and dynamic viscosity. Viscosity was measured on two different machines, first the Hoppler viscometer and on vibrating viscometer. Results of these measurement are evaluated in tables and graphs.

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