Global ETD Search

211	LOW TEMPERATURE CLEAVAGE FRACTURE OF MICROALLOYED BAINITIC PLATE STEELS EL-KHAZEN, JOHN 07 August 2009 (has links) Low temperature cleavage fracture behaviour was investigated using four experimental microalloyed bainitic plate steels. The four plate samples were produced by different thermomechanical processing (TMP) schedules and had yield strengths in the range 540 - 670 MPa. Microstructures were characterized by optical microscopy (OM), scanning electron microscopy (SEM) and electron back scattered diffraction (EBSD). Quantitative data was obtained for prior austenite grain (PAG) size, volume fractions of two bainite types (conventional bainite and acicular ferrite) and EBSD 15° domain size. Charpy impact tests (using two notch orientations) were carried out over a range of temperatures. Cleavage facet sizes were measured on -196°C Charpy samples. The range of TMP schedules produced variations in PAG width, type of bainite and 15° domain size. The effects of these three microstructural features on cleavage crack propagation are discussed. Results indicate that the microstructures are controlled by i) deformation below TNR and ii) accelerated cooling rate. Domain structure reflects TMP. There is no clear correlation between domain size and cleavage facet size. / Thesis (Master, Mechanical and Materials Engineering) -- Queen's University, 2009-07-30 19:17:01.25 Bainite Cleavage Electron Backscatter Diffraction (EBSD) Linepipe Microalloyed Steel Brittle Toughness Low Temperature Conventional Bainite Acicular Ferrite Austenite Accerelated Cooling Rolling Strain Plate Steel Thermomechanical Processing
212	Étude de la biogenèse de l'autotransporteur AIDA-I d'Escherichia coli Charbonneau, Marie-Ève 04 1900 (has links) Les autotransporteurs monomériques, appartenant au système de sécrétion de type V, correspondent à une famille importante de facteurs de virulence bactériens. Plusieurs fonctions, souvent essentielles pour le développement d’une infection ou pour le maintien et la survie des bactéries dans l’organisme hôte, ont été décrites pour cette famille de protéines. Malgré l’importance de ces protéines, notre connaissance de leur biogenèse et de leur mécanisme d’action demeure relativement limitée. L’autotransporteur AIDA-I, retrouvé chez diverses souches d’Escherichia coli, est un autotransporter multifonctionnel typique impliqué dans l’adhésion et l’invasion cellulaire ainsi que dans la formation de biofilm et d’agrégats bactériens. Les domaines extracellulaires d’autotransporteurs monomériques sont responsables de la fonctionnalité et possèdent pratiquement tous une structure caractéristique d’hélice β. Nous avons mené une étude de mutagenèse aléatoire avec AIDA-I afin de comprendre la base de la multifonctionnalité de cette protéine. Par cette approche, nous avons démontré que les domaines passagers de certains autotransporteurs possèdent une organisation modulaire, ce qui signifie qu’ils sont construits sous la forme de modules fonctionnels. Les domaines passagers d’autotransporteurs peuvent être clivés et relâchés dans le milieu extracellulaire. Toutefois, malgré la diversité des mécanismes de clivage existants, plusieurs protéines, telles qu’AIDA-I, sont clivées par un mécanisme qui demeure inconnu. En effectuant une renaturation in vitro d’AIDA-I, couplée avec une approche de mutagenèse dirigée, nous avons démontré que cette protéine se clive par un mécanisme autocatalytique qui implique deux acides aminés possédant un groupement carboxyle. Ces résultats ont permis la description d’un nouveau mécanisme de clivage pour la famille des autotransporteurs monomériques. Une des particularités d’AIDA-I est sa glycosylation par une heptosyltransférase spécifique nommée Aah. La glycosylation est un concept plutôt récent chez les bactéries et pour l’instant, très peu de protéines ont été décrites comme glycosylées chez E. coli. Nous avons démontré que Aah est le prototype pour une nouvelle famille de glycosyltransférases bactériennes retrouvées chez diverses espèces de protéobactéries. La glycosylation d’AIDA-I est une modification cytoplasmique et post-traductionnelle. De plus, Aah ne reconnaît pas une séquence primaire, mais plutôt un motif structural. Ces observations sont uniques chez les bactéries et permettent d’élargir nos connaissances sur la glycosylation chez les procaryotes. La glycosylation par Aah est essentielle pour la conformation d’AIDA-I et par conséquent pour sa capacité de permettre l’adhésion. Puisque plusieurs homologues d’Aah sont retrouvés à proximité d’autotransporteurs monomériques putatifs, cette famille de glycosyltranférases pourrait être importante, sinon essentielle, pour la biogenèse et/ou la fonction de nombreux autotransporteurs. En conclusion, les résultats présentés dans cette thèse apportent de nouvelles informations et permettent une meilleure compréhension de la biogenèse d’une des plus importantes familles de protéines sécrétées chez les bactéries Gram négatif. / Monomeric autotransporters, a family of proteins that use the type V secretion pathway, are important mediators of virulence for many bacterial pathogens. Many functions important for host colonization and survival have been described for these proteins. Despite the recognized importance of this family of proteins, the mechanisms that are required for the biogenesis and functionality of monomeric autotransporters still remain poorly understood. The Escherichia coli adhesin involved in diffuse adherence (AIDA-I) is a classical multifunctional autotransporter protein that mediates bacterial aggregation and biofilm formation, as well as adhesion and invasion of cultured epithelial cells. Extracellular domains of autotransporters are responsible for the protein function and fold into a characteristic β-helical structure. We performed a random mutagenesis of the AIDA-I passenger domain in order to identify regions involved in the various phenotypes associated with the expression of this protein. Our study suggests that the passenger domain of AIDA-I possesses a modular organization, which means that AIDA-I is built with individual functional modules. Autotransporter passenger domains can be cleaved from the β-domain and released into the extracellular milieu. However, despite the fact that diverse cleavage mechanisms have been previously described, many autotransporters, like AIDA-I, are cleaved by an unknown mechanism. By monitoring the in vitro refolding and cleavage following by site-directed mutagenesis, we showed that AIDA-I processing is an autocatalytic event that involves two acidic residues. Our results unveil a new mechanism of auto-processing in the autotransporter family. AIDA-I is one of the few glycosylated proteins found in Escherichia coli. Glycosylation is mediated by a specific heptosyltransferase encoded by the aah gene, but little is known about the role of this modification and the mechanism involved. Our findings suggest that Aah represents the prototype of a new large family of bacterial protein O-glycosyltransferases that modify various substrates recognized through a structural motif. Furthermore, we showed that glycosylation occurs in the cytoplasm by a cotranslational mechanism. These observations are unique in bacteria and represent a significant advance in our comprehension of prokaryotic glycosylation. We also showed that glycosylation is required to ensure a normal conformation of AIDA-I and, as a consequence, is necessary for its cell-binding function. The finding that other autotransporters or large adhesin-encoding genes are linked to Aah homologue-encoding genes suggests that glycosylation may be important, if not essential, for the function of these proteins, as for AIDA-I. In conclusion, the results presented in this thesis bring new information about the autotransporter family and also give new insight into the mechanisms that are important for different aspects of the biogenesis of monomeric autotransporters. Autotransporteur Autotransporter Sécrétion Secretion Glycosylation Heptose Clivage autocatalytique Autocatalytic cleavage AIDA-I Aah Adhésion Adhesion Biofilm Escherichia coli
213	Religion in Nordic Politics as a Means to Societal Cohesion : An Empirical Study on Party Platforms and Parliamentary Debates 1988–2012 Lindberg, Jonas January 2015 (has links) In this study, I address the relationship between religion and politics in the Nordic countries, 1988–2012, against a background of increasing religious diversity alongside more or less continuous relationships between church and state. My aim is to analyse possible changes in the way religion is referred to by Nordic parliamentary parties, and in the way these parties use religion as a means to societal cohesion. I use theories on religious change and on the motives for using religion in politics to discuss a possible re-emergence of religion in politics, with the help of concepts such as functional differentiation, glocalisation and politicisation. I apply different forms of content analysis in a mixed-methods approach, using both substantial and functional definitions of religion. The thesis is based on four articles published or accepted for publication in peer-reviewed international journals: First, a study on religion in Nordic party platforms from around 1988, 1998 and 2008. Second, a study on religion in Danish, Norwegian and Swedish parliamentary debates, 1988/89, 1998/99 and 2008/09. Third, a study on the role of the majority churches in the final Nordic parliamentary debates on same-sex unions 1989–2012. Fourth, a study on Danish and Norwegian parliamentary debates on the wearing of veils among judges and policewomen in 2009. The major findings are that the references to religious diversity in party platforms and parliamentary debates have increased, which leads to a more complex understanding of the religious cleavage in politics, and that right-wing populist parties in particular politicise religion to achieve political influence. Furthermore, human rights have been increasingly used to address religious diversity as a political issue. I interpret these findings as continuous use of religion for societal cohesion in Nordic politics, through a model of different forms of politicisation using the concepts civil religion, human rights and nationalism. The thesis contributes to a better understanding of the religious cleavage, politicisation of religion, the impact of globalisation on the political debate about religion and changes as well as continuity regarding the use of religion in Nordic politics. / <p>Cover photography: Prime Minister Fredrik Reinfeldt (chairman of The Moderate Party) debates with Member of Parliament Jimmie Åkesson (chairman of The Sweden Democrats) in the Swedish parliament Riksdagen on 19 January 2011. Photographer: Melker Dahlstrand/Riksdagsförvaltningen.</p> / NOREL / Impact of Religion Religion politics Nordic Scandinavia church diversity secularisation globalisation politicisation cleavage civil religion human rights nationalism right-wing populist privatised religion content analysis mixed methods
214	Innovative Methods for the Catalyzed Construction of Carbon-Carbon and Carbon-Hydrogen Bonds Mahoney, Stuart James January 2012 (has links) The selective transformation of carbon-carbon and carbon-hydrogen bonds represents an attractive approach and rapidly developing frontier in synthesis. Benefits include step and atom economy, as well as the ubiquitous presence in organic molecules. Advances to this exciting realm of synthesis are described in this thesis with an emphasis on the development of catalytic, selective reactions under mild conditions. Additionally some applications of the methodologies are demonstrated. In Chapter 1, the first examples of inter-and intramolecular enantioselective conjugate alkenylations employing organostannanes are reported. A chiral, cationic Rh(I)-diene complex catalyzed the enantioselective conjugate addition of alkenylstannanes to benzylidene Meldrum’s acids in moderate enantiomeric ratios and yields. Notably, the cationic and anhydrous conditions required for the asymmetric alkenylation are complementary to existing protocols employing other alkenylmetals. In Chapter 2, a domino, one-pot formation of tetracyclic ketones from benzylidene Meldrum’s acids using Sc(OTf)3 via a [1,5]-hydride shift/cyclization/Friedel-Crafts acylation sequence is described. Respectable yields were obtained in accord with the ability to convert to the spiro-intermediate, and considering the formation of three new bonds: one C-H and two C-C bonds. An intriguing carbon-carbon bond cleavage was also serendipitously discovered as part of a competing reaction pathway. In Chapter 3, the pursuit of novel C-H bond transformations led to the development of non-carbonyl-stabilized rhodium carbenoid Csp3-H insertions. This methodology enabled the rapid synthesis of N-fused indolines and related complex heterocycles from N-aziridinylimines. By using a rhodium carboxamidate catalyst, competing processes were minimized and C-H insertions were found to proceed in moderate to high yields. Also disclosed is an expedient total synthesis of (±)-cryptaustoline, a dibenzopyrrocoline alkaloid, which highlights the methodology. In Chapter 4, the Lewis acid promoted substitution of Meldrum’s acid discovered during the course of the domino reaction was explored in detail. The protocol transforms unstrained quaternary and tertiary benzylic Csp3-Csp3 bonds into Csp3-X bonds (X = C, N, H) and has even shown to be advantageous with regards to synthetic utility over the use of alternative leaving groups for substitutions at quaternary benzylic centers. This reaction has a broad scope both in terms of suitable substrates and nucleophiles with good to excellent yields obtained (typically >90%). asymmetric conjugate addition hydride shift C-H insertion Meldrum's acid carbenoid indoline catalysis domino C-H bond functionalization C-C bond cleavage Chemistry
215	The coupling of transcription termination by RNA polymerase II to MRNA 3' end processing in Saccharomyces cerevisiae / Luo, Weifei. January 2006 (has links) Thesis (Ph.D. in Biochemistry) -- University of Colorado at Denver and Health Sciences Center, 2006. / Typescript. Includes bibliographical references (leaves 135-145). Free to UCD Anschutz Medical Campus. Online version available via ProQuest Digital Dissertations;
216	Vers une étude approfondie des protéomes : caractérisation des extrémités N-terminales des protéines / Towards an in-depth analysis of proteomes : characterization of protein n-termini Ayoub, Daniel 25 September 2012 (has links) Dans ce travail de thèse, nous avons développé et optimisé une stratégie originale pour la caractérisation des extrémités N-terminales des protéines et des sites de clivages protéolytiques. Elle s’appuie sur la dérivation chimique spécifique des amines N-terminales et nous l’avons adapté à différents types d’échantillons biologiques. L’application de cette stratégie dans des études en biologie nous a permis d’apporter plusieurs éléments de réponse à différentes problématiques. Nous avons ainsi caractérisé les peptides de transit des protéines mitochondriales humaines et ainsi validé/corrigé expérimentalement leurs prédictions dans les banques de données. Nous avons aussi appliqué cette stratégie à l’étude du protéome du parasite P. falciparum. La mise au point de la dérivation N-terminale de protéines immobilisées dans un gel SDS PAGE nous a permis d’étudier le mécanisme d’export des protéines de ce parasite vers sa cellule hôte et de déterminer le rôle des acides aminés impliqués dans cet export. Un réactif de dérivation marqué aux isotopes stables permet d’effectuer des études différentielles des processus protéolytiques que subissent les protéines. Cette stratégie quantitative a été appliquée à l’étude du protéome hépatique du rat soumis au jeûne expérimental. D’autres applications de l’analyse protéomique en biologie sont aussi présentées dans ce manuscrit. / In this manuscript, we describe the development and the optimization of an original strategy for the characterization of protein N-termini and protease cleavage sites. The strategy is based on specific chemical derivation of alpha-amines. We applied this method to the characterization of mitochondrial proteins’ transit peptides which allowed us to experimentally validate/correct their prediction in protein databases. In another study, the strategy was applied to the analysis of the proteome of the malaria parasite Plasmodium falciparum. The optimization of ingel N-terminal derivation and its application to the study of parasite exported proteins allowed us to determine the role of implicated amino acid residues in the signaling and export mechanism of these proteins to the host cell. To enable differential studies of proteolysis, we introduced an isotope labeled derivation reagent. This quantitative method was applied in the context of a study of the rat liver proteome after experimental long-term fasting. Other applications of proteomics in biology are also presented in this manuscript. Protéomique Protéolyse Clivage protéomytique Modifications post-traductionnelles TMPP Mitochondrie Plasmodium falciparum Paludisme Proteomics Proteolysis Protease cleavage Post-translational modifications TMPP Mitochondria Plasmodium falciparum Long term fasting 572.6
217	Etude du mécanisme de la réaction d'oxydation de l'éthanol sur électrocatalyseurs à base de Pt, Rh, SnO2 sur support carboné en milieu acide / Mechanistic study of the ethanol oxidation reaction on carbon supported Pt-, Rh- and SnO2-based electrocatalysts in acidic medium Bach Delpeuch, Antoine 24 November 2014 (has links) L'étude du mécanisme de la réaction d'oxydation de l'éthanol (EOR) a été réalisée sur des électrocatalyseurs bi- et tri-métalliques à base de Pt, Rh et SnO2 sur support carboné à l'aide de méthodes électrochimiques couplées (DEMS, in situ FTIR). Deux importantes problématiques de l'EOR ont été abordées: la déshydrogénation de la molécule d'éthanol et la cassure de sa liaison C-C.L'investigation de certains paramètres expérimentaux, comme l'épaisseur de la couche d'électrocatalyseur, a permis de démontrer q'une couche active épaisse conduit à une meilleure électrooxydation plus complète de l'éthanol en CO2, mais également que l'empoisonnement de l'électrocatalyseur par de très forts adsorbats advient dans l'épaisseur de couche active.Les performances de chaque électrocatalyseur ont été comparées entre elles et ont mis en évidence une meilleure sélectivité de l'EOR sur Pt-Rh-SnO2/C, ainsi que l'engendrement de courants plus élevés à bas potentiel à température ambiante. La tendance est amplifiée à température plus élevée (T = 60 °C). / The study of the ethanol oxidation reaction (EOR) mechanism was performed on carbon supported bi- and tri-metallic Pt-, Rh-, SnO2-based electrocatalysts via electrochemical coupled techniques (DEMS, in situ FTIR). Two of the most important issues related to the EOR have been broached: the dehydrogenation of the ethanol molecule and its C-C bond breaking.The investigation of some experimental parameters, such as the thickness of the electrocatalyst layer, enabled demonstrating the better complete ethanol electrooxidation into CO2 for large electrocatalysts layers, combined to the enhanced poisoning effect inside the catalyst layer by very strong adsorbates.The performances of each electrocatalyst were compared and evidenced an improved selectivity of the EOR on Pt-Rh-SnO2/C, as well as the generation of higher currents at low potential at room temperature. The tendency was amplified at elevated temperatures (T = 60 °C). Electrocatalyse Réaction d’oxydation de l'éthanol Cassure de la liaison C-C Synthèse polyol Pile à combustible Electrocatalysis Ethanol oxidation reaction C-C bond cleavage Polyol synthesis Fuel cell 620
218	Studies on Photocytotoxic Iron(III) and Cobalt(III) Complexes Showing Structure-Activity Relationship Saha, Sounik January 2010 (has links) (PDF) Photodynamic therapy(PDT) has recently emerged as a promising new non-invasive treatment modality for a large number of neoplastic and non-neoplastic lesions. Photoexcitation of a photosensitizing drug in the tumor tissue causes generation of reactive oxygen species which results in cell death. The current porphyrinic photosensitizers suffer a wide range of drawbacks leading to the development of the chemistry of alternative photosensitizing agents in PDT. Among them, the 4d and 5d transition metal-based photosensitizers have been explored extensively with the exception of the 3d metal complexes. The objective of this thesis work is to design and synthesize photoactive iron(III) abd cobalt(III) complexes and evalutate their photonuclease and photocytotoxic potential. Bioessential 3d metal ions provide an excellent platform for metal-based PDT drug designing as because of its varied spectral, magnetic and redox properties, with its complexes possessing rich photochemical behavior in aqueous and non-aqueous media. We have synthesized binary iron(III) complexes as netropsin mimics using amino acid Schiff bases derived from salicylaldehyde/napthaldehyde and arginine/lysine. The complexes were found to be good AT selective DNA binders and exhibited significant DNA photocleavage activity. To enhance the photodynamic potential, we further synthesized iron(III) complexes of phenolate-based ligand and planar phenanthroline bases. The DNA photocleavage activity of these complexes and their photocytotoxic potential in cancer models were studied. ROS generated by these complexes were found to induce apoptotic cell death. Ternary cobalt(III) complexes were synthesized to study the effect of the central metal atom. The diamagnetic cobalt(III) complexes were structurally dissimilar to their iron(III) analogues. Although the Co(III)/Co(II) redox couple is chemically and photochemically accessible but the Co(III)-dppz complex, unlike its iron(III)-dppz analogue, exhibited selective damage to hTSHR expressing cells but not in HeLa cells. A structure-activity relationship study on iron(III) phenolates having modified dppz ligands was carried out and it was found that electron donating group on the phenazine unit and an increase of the aromatic surface area largely improved the PDT efficiency. Finally, SMVT targeted iron(III) complexes with biotin as targeting moiety were synthesized and the in vitro efficacy of the complexes was tested in HepG2 cells over-expressing SMVTs and compared to HeLa amd HEK293 cells. The complexes exhibited higher phytocytotoxicity in HepG2 than in HeLa and cells and HEK293 cells. An endocytotic mode of uptake took place in HepG2 cells whereas in HEK293 cells, uptake is purely by diffusion. This is expected to reduce the side-effects and have less effect on cells with relatively less SMVTs. In summary, the present research work opens up novel strategies for the design and development of primarily iron-based photosensitizers for their potential applications in PDT with various targeting moieties. Iron Complexes Cancer Research Malignant Tumour Cobalt Complexes DNA Cleavage DNA Binding Photocytotoxicity Dipyridophenazine Cobalt(III) Complexes Iron(III) Complexes Photodynamic Therapy (PDT) Phenanthroline Bases Bichemistry
219	Découverte et caractérisation d'une nouvelle forme de méthionyl-ARNt synthétase nucléaire chez la levure Saccharomyces cerevisiae / Discovery and characterization of a new methionyl-tRNA synthetase in Saccharomyces cerevisiae Laporte, Daphné 30 September 2016 (has links) La methionyl-ARNt synthétase (MetRS) de Saccharomyces cerevisiae aminoacyle les ARNt méthionine initiateur et élongateur (ARNtiMet et ARNteMet), mais possède également des fonctions atypiques. Nous avons montré que la MetRS rejoint le noyau durant la transition diauxique afin de réguler la transcription des gènes nucléaires des complexes III et V de la chaîne respiratoire mitochondriale. Pour ce faire, la MetRS possède au moins deux signaux de localisation nucléaire (NLS) dans sa séquence, l’un se situant dans les 55 premiers acides aminés (aa) et le second, au delà de la partie N-terminale lui permettant de recruter les sous-unités Rpb4 et Rpb7 de l’ARN pol II. Nous avons montré qu’en fermentation, la MetRS est clivée entre le 114ème et le 132ème aa et que cette forme clivée est essentielle à la viabilité des cellules, puisqu’un variant non clivé (MetRSK11A) ne permet pas la croissance. Nous avons surproduit et purifié un mutant de la MetRS clivée (MetRSΔ142) et montré que ce variant est plus efficace pour l’aminoacylation de l’ARNtiMet que la forme entière de MetRS. Ainsi, notre étude suggère que chez S. cerevisiae, la forme longue de MetRS cytoplasmique permet l’aminoacylation de l’ARNteMet, la forme longue de MetRS nucléaire régule la transcription, et la forme clivée de MetRS nucléaire et cytoplasmique permet l’aminoacylation de l’ARNtiMet / Methionyl-tRNA synthetase (MetRS) is the enzyme in charge of aminocylation of tRNA methionine initiator and elongator (tRNAiMet et tRNAeMet), but also displays atypical functions in Saccharomyces cerevisiae. In the present work, we showed that MetRS is imported to the nucleus during the diauxic shift in order to regulate transcription of genes coding for the complexes III and V subunits of the mitochondrial respiratory chain. To do so, MetRS harbors at least two nuclear localization signals (NLS), located within the 55 first aminoacids (NLS1) and beyond the N-terminal part (NLS2). The N- terminal part is responsible for the recruitment of RNA pol II subunits Rpb4 and Rpb7. We also showed that MetRS is cleaved through the 114th and the 132nd aminoacid during fermentation and that the proteolysed form is essential for the viability of the cell, since a mutant of MetRS which is not cleaved (MetRSK11A) did not allows the growth. We showed that an overproduced and purified a mutant representative of the cleaved form (MetRSΔ142) is more efficient for tRNAiMet aminoacylation than the full length MetRS. Thus, our study suggests that in S. cerevisiae, the cytoplasmic full length MetRS aminoacylates tRNAeMet, the nuclear full length MetRS regulates genes transcription, and the cytoplasmic and nuclear cleaved MetRS aminoacylates the tRNAiMet. Aminoacyl-ARNt synthétase ARNt Noyau Saccharomyces cerevisiae Transition diauxique Transcription Clivage Aminoacyl-tRNA synthetase TRNA Nucleus Saccharomyces cerevisiae Diauxic shift Transcription Cleavage 572.8
220	DNA Cleavage By Type III Restriction Enzyme EcoP151 : Properties, Mechanism And Application Raghavendra, N K 02 1900 (has links) (PDF) No description available. DNA Cleavage Enzymes - Reaction DNA-Protein Interactions DNA Binding EcoP151 Restriction Enzyme Restriction Enzymes R.EcoP15I AdoMet Sinefungin Type III Restriction Enzyme Cell Biology

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