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The Global ETD Search service is a free service for researchers
to find electronic theses and dissertations. This service is
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Networked Digital Library of Theses and Dissertations.
Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
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Showing 91 to 100 of 109 (0.021 seconds)| 91 |
Theoretical high-resolution spectroscopy for reactive molecules in astrochemistry and combustion processesSchröder, Benjamin 15 August 2019 (has links)
No description available.
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C3 Inquiry Based Instruction to Promote Social and Emotional LearningLewandowski, Arthur J. January 2019 (has links)
No description available.
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| 93 |
Assessing Factor H-Fc Fusion Proteins as a Therapeutic for Controlling Burkholderia pseudomallei InfectionMorgan, Kelly Lane January 2022 (has links)
No description available.
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Interactions of bacillus anthracis with the innate immune system during early infectionPremanandan, Christopher 08 March 2007 (has links)
No description available.
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Synthesis and Application of New Chiral Ligands for Enantioselectivity Tuning in Transition Metal CatalysisKong, Fanji 08 1900 (has links)
A set of five new C3-symmetric phosphites were synthesized and tested in palladium-catalyzed asymmetric Suzuki coupling. The observed reactivity and selectivity were dependent upon several factors. One of the phosphites was able to achieve some of the highest levels of enantioselectivity in asymmetric Suzuki couplings with specific substrates. Different hypotheses have been made for understanding the ligand effects and reaction selectivities, and those hypotheses were tested via various methods including DOSY NMR experiments, X-ray crystallography, and correlation of catalyst selectivity with Tolman cone angles. Although only modest enantioselectivities were observed in most reactions, the ability to synthesis these phosphites in only three steps on gram scales and to readily tune their properties by simple modification of the binaphthyl 2´-substituents makes them promising candidates for determining structure-selectivity relationships in asymmetric transition metal catalysis, in which phosphites have been previously shown to be successful. A series of novel chiral oxazoline-based carbodicarbene ligands was targeted for synthesis. Unfortunately, the chosen synthetic route could not be completed due to unwanted reactivity of the oxazoline ring. However, a new and efficient route for Pd-catalyzed direct amination of aryl halides with oxazoline amine was developed and optimized during these studies. Chiral binaphthyl based Pd(II) ADC complexes with different substituent groups have been synthesized and tested in asymmetric Suzuki coupling reactions. Although only low enantioselectivities were observed in Suzuki coupling, this represents a new class of chiral metal-ADC catalysts that could be tested in further catalytic.
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Modification de la synthèse des furocoumarines chez Ruta graveolens L. par une approche de génie métabolique / Functional exploration of the biosynthesis pathway of phenylpropanoids of Ruta graveolens by metabolic engineeringDoerper, Sébastien 12 November 2008 (has links)
La rue officinale (Ruta graveolens L) est une plante connue comme étant particulièrement riche en métabolites secondaires et produisant notamment des molécules d’intérêt pharmaceutique comme les furocoumarines. Nous avons tenté par une approche de génie métabolique d’augmenter la teneur en furocoumarines produites dans les plantes. La mise en place de telles approches nous a également permis de mieux comprendre les mécanismes de régulation de la voie de biosynthèse des phénylpropanoïdes. Pour atteindre ces objectifs nous avons transformé la rue avec différents gènes placés sous le contrôle d’un promoteur constitutif fort, le promoteur 35S du CaMV. Pour chaque série de transformants nous avons étudié la teneur en furocoumarines et analysé les variations de composés phénylpropanoïdes (rutine, umbelliférone, ferulate, scopolétine). Parallèlement à cette analyse métabolique, une corrélation a été réalisée avec le niveau d’expression des transgènes et de certains endogènes par l’utilisation d’approche de PCR quantitative. Les séries de plantes transgéniques surexprimant les gènes codants pour la Coumaroyl ester 3’-Hydroxylase de rue (CYP98A22) et d’A. thaliana (CYP98A3) présentent toutes les deux une augmentation significative d’une facteur 3 de la teneur en furocoumarines. Par contre si les premières sont caractérisées par une diminution de la production en rutine et en umbelliférone, les secondes présentent une augmentation importante de la teneur en Scopolétine et en umbelliférone. Ces résultats suggèrent la coexistence de deux C3’H chez R. graveolens ayant des fonctions différentes, l’une d’entre elles étant impliquée directement ou non dans la synthèse de scopolétine. Si la transformation génétique de rues avec des gènes de la famille CYP98A induit des modifications du métabolisme secondaire, la surexpression d’un gène spécifique à la voie de biosynthèse des furocoumarines (gène cyp71AJ1, codant pour la psoralène synthase d’A. majus) permet d’augmenter uniquement la teneur en furocoumarines (X4). L’ensemble de ces travaux a permis de montrer l’intérêt d’une approche de génie métabolique pour générer des plantes présentant un intérêt potentiel pour la production de molécules d’intérêts pharmaceutiques / Garden Rue (Ruta graveolens L.) is a plant known as being particularly rich in secondary metabolites and in particular producing molecules of pharmaceutical interest like furocoumarines. By the use of a metabolic engineering approach, we tried to increase the content of furocoumarines produced in these plants but also to better understand the regulation mechanisms of the phenylpropanoïd biosynthesis pathway. To achieve these goals we transformed Ruta plants with various genes placed under the control of a strong constitutive promoter, CaMV 35S promoter. The plants we obtained were analyzed for their ability to overproduce furocoumarines but also other phenylpropanoïds like ferulate, umbelliferone, scopoletine or rutin. Using Real Time PCR experiments, a correlation was carried out with the level of expression of each transgene and several endogenous genes. Plants overexpressing either the Ruta or the Arabidopsis Coumaroyl ester 3 '-Hydroxylase (CYP98A22 and CYP98A3 respectively) display both a significant increase (3 time level) of the furocoumarin. However if the S-98A22 plants are characterized by a reduction in the production of rutin and umbelliferone, S-98A3 transgenic plants display a significant increase scopoletine and umbelliferone content. These results suggest the coexistence of two C3'H having different functions in Ruta. One of them might be involved more specifically in the synthesis of scopoletine. If the transformation of Ruta with genes belonging to the CYP98A family generates an enlarged of the secondary metabolism, we also showed that the overexpression of a gene belonging to the furocoumarins biosynthesis pathway (CYP71AJ1, the psoralen synthase) allowed a specific stimulation. Indeed a 4 time increase of the content of furocouramins was noticed in these transgenic plant lines. This work made it possible to make evidence of the interest of a metabolic engineering approach to generate plants of interest for the production of pharmaceutical molecules
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Funktionelle Charakterisierung der mit altersabhängiger Makuladegeneration (AMD) assoziierten Komplementfaktor-H-Variante Y402H / Functional characterization of Complement-factor-H-variant Y402H associated with age-related macular degeneration (AMD)Börncke, Florian 05 March 2012 (has links)
No description available.
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Analysis of Impact of R382W Mutation on Substrate Specificity of Grapefruit Flavonol Specific 3-GlucosyltransferaseKing, Kathleen, Shivakumar, Devaiah P., McIntosh, Cecelia A. 09 April 2015 (has links)
Flavonoids are a class of plant metabolites with a C6-C3-C6 structure. They are responsible for a large range of biological functions including UV protection, pigmentation, and anti-microbial properties. Citrus paradisi, the grapefruit, contains a wide variety of flavonoids, including the target flavonols which are characterized by a hydroxyl group at the C3 position. A glucose molecule is added to flavonols by 3-Oglucosyltransferases (3-O-GTs). C. paradisi F3-O-GT only glucosylates flavonols; however, Vitis vinifera (grape) 3-O-GT can accept both flavonols and anthocyanidins. The two enzymes have some identity with one another but sequence alignment pinpointed several areas of non-homology. Homology modeling using the crystallized structure of the V. vinifera 3-GT revealed sites within the non-homologous areas that could influence the binding site most directly. The 382 site was of particular interest with arginine in C. paradisi changed to tryptophan in V. vinifera, a much bulkier and non-charged amino acid. Site-directed mutagenis was performed to form the R382W mutant line and transformed into yeast for expression after induction with methanol. Western blot was used to determine the optimal protein induction time, after which the cells were harvested and broken to extract the proteins. Isolation and purification of the protein in question allows for enzyme analysis. This is performed by measuring incorporation of radioactive glucose onto various substrates from each flavonoid class. High counts indicate that the enzyme is active upon the substrate while low counts indicate little to no activity. Characterization will also be performed by varying reaction conditions. Thus, the optimal pH, temperature, substrate quantity, enzyme quantity, and reaction duration can be determined for this specific mutant. These experiments will determine if the R382W mutation has a significant impact on the substrate specificity or reaction conditions for the enzyme. A change in activity to include other classes of flavonoids besides flavonols indicates that the mutation site has a direct impact on the conformation of the binding site. Failure of the mutation to change substrate specificity still provides valuable information for the structure and function of the enzyme. This has implications for engineering enzymes to perform specific functions.
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USING STABLE ISOTOPES TO ASSESS LONGITUDINAL DIET PATTERNS OF BLACK BEARS (URSUS AMERICANUS) IN GREAT SMOKY MOUNTAINS NATIONAL PARKTeunissen Van Manen, Jennapher Lynn 01 May 2011 (has links)
Long-term diet patterns based on stable isotope analysis may be helpful to understand changes in food selection of black bears (Ursus americanus) over time and guide management programs to reduce human-bear conflicts. An enriched stable carbon isotope signature indicates an anthropogenic food source in the diet and an enriched nitrogen signature indicates a higher tropic level for a species. I examined longitudinal feeding patterns from 117 hair samples of black bears live captured in Great Smoky Mountains National Park during 1980–2001 using stable carbon and nitrogen isotope analysis from hair samples. I developed a set of a priori models to examine if sex, age class, year, weight class, total hard mast index, white oak index (Quercus spp.), red oak index (Quercus spp.), nuisance status and hog harvest (Sus scrofa) affected stable isotope signatures. I used model averaging and an estimator of the unconditional variance was used to account for model uncertainty. The δ[delta]13C signatures differed by weight class with above average weight, (ß[Beta] = 0.76‰; 95% CI = 0.28 to 1.23) and average weight (ß[Beta] = 0.42‰; CI = 0.06 to 0.78) showing enriched values compared to below average bears. Bears had enriched δ[delta]15N signatures in years with low white oak mast production (ß[beta] = -0.19, CI = -0.34 to -0.03) and depleted when white oak hard mast was abundant. Sub adult bears had enriched δ[delta]15N signatures compared to adult and older adult bears. Variation of nitrogen values was small during 1980–1991 ( = 2.57, SD = 0.28) but increased substantially during 1992–2000 ( = 2.29, SD = 0.71) when there was substantial variation in hard mast production. Bears in better physical condition appear more likely to access anthropogenic food sources. In years of low white oak acorn production, the larger bears and sub adult bears are more likely to turn to alternative food sources. The long term variation detected in this study is important in identifying which bears are potentially more likely to seek out the anthropogenic food sources when changes occur in availability of natural foods.
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Immunological Checkpoint Blockade and TLR Stimulation for Improved Cancer Therapy / TLR-stimulering och CTLA-4 samt PD-1 blockad för förbättrad cancerterapiMangsbo, Sara January 2009 (has links)
This thesis concerns the investigation of novel immunotherapies for cancer eradication. CpG therapy was used in order to target antigen-presenting cells (APCs), facilitating antigen presentation and activation of T cells. Blockade of the two major immune checkpoint regulators (CTLA-4 and PD-1) was also studied to ensure proper and sustained T cell activation. The therapies were investigated alone and compared to BCG, the standard immunotherapy in the clinic today for bladder cancer. In addition, CpG as well as BCG was combined with CTLA-4 or PD-1 blockade to examine if the combination could improve therapy. Single and combination strategies were assessed in an experimental bladder cancer model. In addition, one of the therapies (local aCTLA-4 administration) was evaluated in an experimental pancreatic cancer model. To be able to study the effects of CpG in humans, a human whole blood loop system has been used. This allowed us to dissect the potential interplay between CpG and complement. CpG was found to be superior to the conventional therapy, BCG, in our experimental model and T cells were required in order for effective therapy to occur. Used as a monotherapy, CTLA-4 blockade but not PD-1 blockade, prolonged survival of mice. When CTLA-4 or PD-1 blockade was combined with CpG, survival was enhanced and elevated levels of activated T cells were found in treated mice. In addition, Treg levels were decreased in the tumor area compared to tumors in control treated mice. CTLA-4 blockade was also effective when administrated locally, in proximity to the tumor. Compared to systemic CTLA-4 blockade, local administration gave less adverse events and sustained therapeutic success. When CpG was investigated in a human whole blood loop system it was found to tightly interact with complement proteins. This is an interesting finding which warrants further investigation into the role of TLRs in complement biology. Tumor therapy could be affected either negatively or positively by this interaction. The results presented herein are a foundation for incorporating these combination therapies into the clinic, specifically for bladder cancer but in a broader perspective, also for other solid tumors such as pancreatic cancer.
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