Global ETD Search

81	Occurrence, Localization, and Possible Significance of an Ornithine-Containing Lipid in Paracoccus denitrificans Wilkinson, Brian J., Sment, Karen A., Mayberry, William R. 01 June 1982 (has links) A ninhydrin-positive, phosphorus-negative lipid from Paracoccus denitrificans ATCC 13543 has been isolated and purified by mild alkaline methanolysis followed by silicic acid column chromatography and preparative thin-layer chromatography. The lipid was identified as an ornithine-containing lipid. The major ester-linked fatty acid was cis vaccenic acid. Major amide-linked fatty acids were 3-OH-20:1 and 3-OH-18:0. Ornithine-containing lipid was a major lipid component of P. denitrificans. Phospholipids made up about 57% and ornithine-containing lipid about 14% of the weight of the total lipid of the organism. The ratios of lipid ornithine: lipid phosphorus were 0.23, 0.65 and 0.58 in cytoplasmic membrane, outer membrane, and an NaCl extract, which is thought to represent chiefly outer membrane, respectively. Thus ornithine-containing lipid appears to be present in larger amounts in outer membrane than cytoplasmic membrane. No substantial variations in lipid ornithine levels were noted in stationary phase versus exposnential phase organisms, organisms grown in complex medium versus organisms grown in minimal medium with and without amino acid supplements, or in organisms grown in low phosphate-containing medium. hydroxy fatty acids lipids ornithine-containing lipid outer membrane paracoccus denitrificans
82	Synthesis of Functionalized δ-Hydroxy-β-keto Esters and Evaluation of Their Anti-inflammatory Properties Grosse, Michel, Günther, Kerstin, Jordan, Paul M., Roman, Dávid, Werz, Oliver, Beemelmanns, Christine 27 July 2023 (has links) δ-Hydroxy-β-keto esters and δ,β-dihydroxy esters are characteristic structural motifs of statin-type natural products and drug candidates. Here, we describe the synthesis of functionalized δ- hydroxy-β-keto esters in good yields and excellent enantioselectivities using Chan’s diene and modified Mukaiyama-aldol reaction conditions. Diastereoselective reduction of δ,β-dihydroxy esters afforded the respective syn- and anti-diols, and saponification yielded the corresponding acids. All products were evaluated for their anti-inflammatory properties, which uncovered a surprising structure-activity relationship. δ-Hydroxy-β-keto Esters, Synthesis info:eu-repo/classification/ddc/540 ddc:540
83	Asymmetric Dihydroxylation and Aziridination of Allenes and Related Chemistry Liu, Renmao 11 May 2007 (has links) (PDF) A novel method for asymmetric synthesis of α-hydroxy ketone with excellent regio- and stereoselectivity has been established by the systematic investigation of asymmetric dihydroxylation of allenes. The efficiency of kinetic resolution of racemic allenes was also investigated by using the AD reaction on both 1,3-disubstituted and trisubstituted allenes. Steric effects, electronic effects and allene substitution are also discussed. Aziridines were formed by copper-catalyzed intramolecular nitrene addition to alkenes. The carbamate group was used as the tether between the alkene and the nitrene. Subsequent nucleophilic attack of the aziridine was accomplished using RSH, R2NH, N3-,or ROH as the nucleophile. This addition was found to be regio- and stereoselective. This methodology has provided a new strategy for the stereoselective construction of three adjacent functional groups, in particular the 1,2 diamino-3-hydroxy unit. The rhodium-catalyzed intramolecular aziridination of allenic N-sulfonyloxy carbamates has been established. Efficient ring opening of these bicyclic compounds may provide synthetic utility in organic chemistry. The intramolecular aziridination of allenic sulfamate esters was tested on a single example to afford in situ a ring opened product. asymmetric dihydroxylation aziridination allenes alkenes α-hydroxy ketone aziridines Biochemistry Chemistry
84	Structural characterization of plant derived HDR enzymes in the MEP pathway Idman, Lukas January 2023 (has links) No description available. Crystallization HDR Biochemistry and Molecular Biology Biokemi och molekylärbiologi
85	Nutritional strategies to improve nitrogen efficiency and reduce nitrogen excretion of lactating dairy cows Noftsger, Susan M. January 2003 (has links) No description available. Dairy Methionine Nitrogen Excretion 2-hydroxy-4(methylthio) butanoic acid HMB
86	Role of Subcellular Differentiation in Plant Disease Resistance Lang, Saara Susanna 07 March 1997 (has links) 3-Hydroxy-3-methylglutaryl CoA reductase (HMGR, EC 1.1.1.34) catalyzes the reaction from hydroxymethylglutaryl CoA to mevalonate in the isoprenoid pathway. In solanaceous plants, one class of endproducts of the pathway are sesquiterpenoid phytoalexins, antibiotic compounds produced by plants in response to pathogens. We are interested in the role of the defense-inducible isoforms of HMGR in phytoalexin production and disease resistance. Transgenic tobacco, constitutively expressing the defense-inducible tomato hmgr isogene, hmg2, showed fewer and smaller lesions following tobacco mosaic virus (TMV) inoculation. There is little evidence of phytoalexins acting directly against viruses, but they may reduce the spread of viruses as part of the hypersensitive response resulting in death of the host cell. Transmission electron microscopy of leaf cells of the transgenic plants revealed a larger volume of cytosol and accumulation of electron-dense inclusion bodies within the vacuoles. No structures resembling crystalloid ER or karmellae, caused by overexpression of hmgr in mammalian or yeast cells, respectively, were observed. Similar inclusion bodies were found in the vacuoles of wild-type tobacco leaf cells adjacent to necrotic cells in a TMV lesion. Tobacco expressing a truncated (membrane domain) form of hmg2 did not show enhanced resistance to TMV or any ultrastructural changes, indicating the importance of catalytically active HMG2 in mediating these changes. Sesquiterpene cyclase (a key branch point enzyme controlling sesquiterpene phytoalexin biosynthesis) was not induced and the amount of capsidiol, the tobacco phytoalexin, was not elevated by expression of hmg2. After TMV-inoculation, HMGR activity and the amount of capsidiol were higher in the wild-type than in the transgenic plants. Consequently, the enhanced resistance to TMV was not due to constitutive capsidiol production. The transgenic plants may have been able to produce sesquiterpenoid phytoalexins faster due to constitutive hmg2- expression and restricted the spread of the virus earlier, so that only a few cells were sacrificed. The subcellular localization of the defense-specific HMG2 isoform was determined by tagging tomato hmg2 with a c-myc epitope, and constitutively expressing the construct in transgenic tobacco plants. In non-induced leaves, MYC-HMG2 was found localized in small clusters associated with the ER. In TMV-inoculated leaves MYC-HMG2 co-localized with sesquiterpene cyclase to the vacuolar inclusion bodies suggesting that they may contain a defense-induced, membrane-associated multienzyme complex dedicated to sesquiterpene production. Our results support the hypothesis of the multibranched plant isoprenoid pathway being partly regulated by pathway partitioning. / Ph. D. HMGR 3-hydroxy-3-methylglutaryl CoA reductase phytoalexins vacuole plant defense immunolocalization
87	Fish oil supplementation alters levels of lipid mediators of inflammation in microenvironment of acute human wounds McDaniel, J, Massey, Karen A., Nicolaou, Anna 2010 November 1917 (has links) No / Chronic wounds often result from prolonged inflammation involving excessive polymorphonuclear leukocyte activity. Studies show that the omega-3 polyunsaturated fatty acids eicosapentaenoic and docosahexaenoic acids found in fish oils generate bioactive lipid mediators that reduce inflammation and polymorphonuclear leukocyte recruitment in numerous inflammatory disease models. The purpose of this study was to test the hypotheses that boosting plasma levels of eicosapentaenoic and docosahexaenoic acids with oral supplementation would alter lipid mediator levels in acute wound microenvironments and reduce polymorphonuclear leukocyte levels. Eighteen individuals were randomized to 28 days of either eicosapentaenoic + docosahexaenoic acid supplementation (Active Group) or placebo. After 28 days the Active Group had significantly higher plasma levels of eicosapentaenoic (p<0.001) and docosahexaenoic acid (p<0.001) than the Placebo Group and significantly lower wound fluid levels of two 15-lipoxygenase products of omega-6 polyunsaturated fatty acids, [9- hydroxyoctadecadienoic (HODE) acid (p = 0.033) and15-hydroxyeicosatrienoic acid (HETrE) (p = 0.006)], at 24 hours post wounding. The Active Group also had lower mean levels of myeloperoxidase, a leukocyte marker, at 12 hours and significantly more re-epithelialization on Day 5 post wounding. We suggest that lipid mediator profiles can be manipulated by altering polyunsaturated fatty acid intake to create a wound microenvironment more conducive to healing. Omega-3 polyunsaturated fatty acids Wound healing Eicosanoids Hydroxy fatty acids Eicosapentaenoic acid Docosahexaenoic acid
88	Hexabromcyclododecan Esslinger, Susanne 14 November 2013 (has links) Das Ziel dieser Arbeit war die Untersuchung des enantiomerenspezifischen Umweltverhaltens des Flammschutzmittels Hexabromcyclododecan (HBCD). Zu Beginn erfolgte daher die Optimierung und Validierung eines enantiomerenspezifischen Analysenverfahrens für die Bestimmung von HBCD in Biota. Die errechneten mittleren Wiederfindungen lagen im Bereich von 100-102 % und die Nachweisgrenzen zwischen 0,131 und 0,255 pg g-1. Untersuchungen zur ubiquitären Verteilung von HBCD erfolgten an Eiern der Silbermöwe deutscher Nord- und Ostseeinseln (Probenahme 1988-2008). In allen Fällen dominierte alpha-HBCD das Diastereomerenmuster, wobei eine bevorzugte Anreicherung von (-)-alpha-HBCD sowie ein zeitlicher Trend aller Enantiomeren-Gehalte festgestellt wurde. Zur Klärung der Frage einer Bioakkumulation sowie -isomerisierung der HBCD-Stereoisomere erfolgten Langzeit-Fütterungsversuche an Spiegelkarpfen. Die Untersuchungen ergaben eine signifikante Akkumulation des jeweils gefütterten HBCD-Enantiomers, jedoch konnte die Hypothese der Bioisomerisierung nicht bestätigt werden. Ein weiterer Schwerpunkt lag in Untersuchungen zur cytochromabhängigen enantiomerenspezifischen Biotransformation von HBCD im Rahmen des Metabolismus an Lebermikrosomen diverser Spezies. Hier konnte gezeigt werden, dass HBCD dem Phase I-Metabolismus unterliegt und hydroxyliert wird. Dabei weist jedes HBCD-Enantiomer ein spezifisches Metabolitenmuster auf, was eine Zuordnung der hydroxylierten Verbindungen zum entsprechenden HBCD-Enantiomer erlaubt. Anhand von Zeitreihen sowie der Berechnung von Halbwertszeiten konnte der Verdacht eines enantiomerenspezifischen Metabolismus in Richtung einer Anreicherung von (-)-alpha- und (+)-gamma-HBCD bestätigt werden. Inkubationsansätze mit reinen Cytochrom (CYP)-Isoformen sowie molekülmechanische Berechnungen legen die Vermutung nahe, dass dem CYP3A4 eine Schlüsselrolle bei der Metabolisierung von HBCD zukommt. / The main emphasis of this thesis was on the enantio-specific environmental behaviour of the polybrominated flame retardant hexabromocyclododecane (HBCD). Initially, an enantio-specific analytical method for the determination of HBCD in biota was optimised and validated. The calculated mean recoveries ranged from 100 to 102 % and the limits of detection are in the range of 0.131 to 0.255 pg g-1. First investigations of the ubiquitous environmental distribution of HBCD were performed using herring gull eggs from different islands in the North and Baltic Sea (sampling 1988 to 2008). In all cases alpha-HBCD was the predominant diastereomer. Significant deviations from the racemic mixture revealed a preferred enrichment of the first eluting (-)-alpha-HBCD. In addition, a temporal trend of HBCD levels was observed. To clarify the issue of accumulation as well as bioisomerisation of HBCD stereoisomers, a long-term feeding study with mirror carps was performed. The results showed an accumulation of each initially fed HBCD enantiomer, but hypothesis of a bioisomerisation could not be confirmed. Another important focus of this work was to study the cytochrome-dependent enantio-specific biotransformation of HBCD enantiomers in various species of liver microsomes. It was shown that HBCD is subject to phase I metabolism. In the course of this process, HBCD is metabolised to hydroxylated products, whereas each HBCD enantiomer results in a specific metabolite pattern allowing the allocation of the corresponding hydroxylated compounds. Investigation of time series as well as the calculation of half-lives, the hypothesis of an enantio-specific metabolism towards an enrichment of (-)-alpha- and (+)-gamma-HBCD could be confirmed. Incubation mixtures with pure cytochrome (CYP) isoforms, as well as molecular mechanic calculations suggest that CYP3A4 plays a key role in the biotransformation processes of HBCD. HBCD enantiomerenspezifische Bestimmung HPLC-MS/MS Bioisomerisierung Biotransformation mikrosomaler Metabolismus TBCD Hydroxy-HBCD HBCD enantio-specific determination HPLC-MS/MS bioisomerisation biotransformation microsomal metabolism TBCD hydroxy-HBCD 540 Chemie 30 Chemie VK 7007 VK 7107 ddc:540
89	Suitability of cellulose ester derivatives in hot melt extrusion : thermal, rheological and thermodynamic approaches used in the characterization of cellulose ester derivatives for their suitability in pharmaceutical hot melt extrusion Karandikar, Hrushikesh M. January 2015 (has links) Applications of Hot Melt Extrusion (HME) in pharmaceuticals have become increasingly popular over the years but nonetheless a few obstacles still remain before wide scale implementation. In many instances these improvements are related to both processing and product performance. It is observed that HME process optimisation is majorly focused on the active pharmaceutical ingredient's (API) properties. Characterising polymeric properties for their suitability in HME should be equally studied since the impact of excipients on both product and process performance is just as vital. In this work, two well-established cellulose ester derivatives: Hydroxy Propyl Methyl Cellulose Acetate Succinate (HPMCAS) and Hydroxy Propyl Methyl Cellulose Phthalate (HPMCP) are studied for their HME suitability. Their thermal, thermodynamic, rheological, thermo-chemical and degradation kinetic properties were evaluated with model plasticisers and APIs. It was found the thermal properties of HPMCP are severely compromised whereas HPMCAS is more stable in the processing zone of 150 to 200 °C. Thermodynamic properties revealed that both polymers share an important solubility parameter range (20-30 MPa P1/2P) where the majority of plasticisers and BCS class II APIs lie. Thus, greater miscibility/solubility can be expected. Further, the processability of these two polymers investigated by rheometric measurements showed HPMCAS possesses better flow properties than HPMCP because HPMCP forms a weak network of chain interactions at a molecular level. However, adding plasticisers such as PEG and TEC the flow properties of HPMCP can be tailored. The study also showed that plasticisers have a major influence on thermo-chemical and kinetic properties of polymers. For instance, PEG reduced polymer degradation with reversal in kinetic parameters whereas blends of CA produced detrimental effects and increased polymer degradation with reduction in onset degradation temperatures. Further, both polymers are observed to be chemically reactive with the APIs containing free -OH, -SOR2RN- and -NH2 groups. Finally, these properties prove that suitability of HPMCP is highly debated for HME and demands great care in use while that of HPMCAS is relatively better than HPMCP in many instances. 570
90	Développement d’un microréacteur à base d’enzyme microencapsulée en vue d’un couplage en ligne à un système d’électrophorèse capillaire Gusetu, Georgiana 10 1900 (has links) Réalisé en codirection avec Karen C. Waldron et Dominic Rochefort. / L’objectif principal de ce projet de recherche est d’étudier l’efficacité de la microencapsulation, technique d’immobilisation d’enzymes utilisée pour la réalisation des nouveaux biocapteurs électrochimiques. Généralement, l’analyte d’intérêt produit ou consomme des électrons, et la réponse électrochimique est mesurée, afin d’identifier ou quantifier l’analyte. Dans le développement d’un biocapteur, il est désirable de quantifier la conversion du substrat (analyte) et/ou la formation de produit de réaction enzymatique. Les similarités structurales entre le substrat et le produit de réaction dans les réactions redox demandent que la technique utilisée pour les identifier soit très sélective. Le haut pouvoir de résolution de l’électrophorèse capillaire (EC) pour des séparations rapides de produits similaires en fait une méthode de choix, spécialement quand le substrat et le produit peuvent être suivis pendant et après la réaction catalysée par l’enzyme immobilisée. Un choix judicieux du substrat, compte tenu de son comportement en EC peut fournir des informations autant sur l’activité de l’enzyme que sur l’efficacité de la microencapsulation. Pour cette raison, nous avons choisi le substrat o-phenylènediamine qui est oxydé par la laccase, pour former le produit 2,3-diaminophenazine, tout en réduisant l’oxygène en eau. Pour commencer, nous avons préparé les microcapsules et évalué l’impact de la microencapsulation sur le comportement de l’enzyme. Ensuite, nous avons développé une méthode de séparation en EC afin de quantifier la conversion de l’OPD en DAP par la laccase libre. La même méthode d’analyse a été utilisée pour caractériser la laccase immobilisée dans les microcapsules. Par la suite, afin de suivre la réaction enzymatique, un microréacteur à base d’enzyme microencapsulée a été couplé hors ligne au système d’EC. Finalement, nous avons essayé l’implémentation du système en ligne et les résultats préliminaires seront présentés. / The principal objective of this research project is to study the efficiency of microencapsulation, technique used for enzyme immobilization in order to create new types of electrochemical biosensors. Generally, the target analyte involved either produces or consumes electrons and the electrochemical response is measured to identify or quantify the analyte. In the development of a biosensor, it is desirable to quantify the conversion of substrate (analyte) and/or the formation of product of the enzymatic reaction. The structural similarity between substrate and product in redox reactions means that the technique used to determine these species must be very selective. The high resolving power of capillary electrophoresis (CE) for rapidly separating similar compounds is thus an attractive method, particularly if substrate and product can both be monitored during or following the reaction catalyzed by microencapsulated enzyme. A judicious choice of substrate with respect to its behaviour in CE separations can help provide information on enzyme activity as well as microencapsulation efficiency. To achieve this, we chose the substrate o-phenylenediamine (OPD), which is oxidized by laccase to form the product 2,3-diaminophenazine (DAP) concomitant with the reduction of molecular oxygen to water. We firstly prepared the microcapsules and evaluate the impact of microencapsulation on the behaviour of the enzyme. After that, we developed a CE based separation method to quantify the conversion of OPD to DAP by free laccase. We also used the CE method to characterize laccase immobilized in microcapsules. Subsequent, the microencapsulated laccase was packed into a microreactor format permitting its off-line coupling with CE as a means to follow the enzymatic reaction. Finally, we tried to implement the on-line system and the preliminaries results are presented. Laccase Microencapsulation Enzymes immobilisées Microréacteur en ligne Électrophorèse capillaire Ortho-phenylènediamine 2,3-diaminophenazine 2-hydroxy-3-aminophenazine Laccase Microencapsulation Immobilized enzymes On-line microreactor Capillary electrophoresis Ortho-phenylenediamine 2,3-diaminophenazine 2-hydroxy-3-aminophenazine

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