Global ETD Search

21	Design of a Miniaturized X-band Chebyshev Band-pass Filter Based on BST Thin Film Zhang, Chenhao 21 August 2012 (has links) No description available. Electrical Engineering Band-pass BST miniaturized CPW hairpin
22	Functional analysis of Pso2 reveals a novel DNA hairpin endonuclease activity: Implications for interstrand crosslink repair Tiefenbach, Tracy E. 10 1900 (has links) <p>DNA interstrand crosslinks provide a challenge for repair machinery given that both strands contain the lesion. Cells have evolved a sophisticated mechanism to overcome this, by recruiting proteins from several repair pathways. One protein thought to function solely in interstrand-crosslinking repair is Pso2. Pso2 deficient cells display sensitivity towards ICL agents and accumulate DNA double strand breaks upon exposure. However, Pso2 is not required for repair of DNA double strand breaks generated by other means, suggesting that these particular breaks are unique requiring Pso2 processing for successful repair. To identify what characteristics these breaks possess and what role Pso2 plays in processing theses breaks, a thorough <em>in vivo</em> and <em>in vitro </em>characterization of Pso2 was conducted.</p> <p>Pso2 was found to be a 5’-exonuclease independent of DNA structure and length but completely dependent on a 5’-phosphate. Pso2 also displayed structure-specific DNA hairpin-opening activity at the 3’ end two nucleotides from the apex. This activity was required for repair of genomic DNA capped by hairpin structures in the absence of ICL inducing agents as well those generated in response to ICL damage. The constitutively active DNA hairpin endonuclease β-CASP domain of Artemis was able to partially restore the DNA hairpin-opening deficiency and suppress the ICL defect in a <em>pso2 </em>null strain. This suggests that Pso2 acts as an endonuclease in ICL repair and that DNA hairpins may be an encountered intermediate, leading to further understanding of how this unique protein function in ICL repair as well as the repair mechanism itself.</p> / Doctor of Science (PhD) DNA Repair interstrand crosslinks Pso2 DNA hairpin. Biochemistry Biochemistry
23	Synthèse et propriétés d’ARNs modifiés en position 2’ via des ponts disulfures / Synthesis and properties of 2’-O-modified RNAs bearing disulfide-containing groups Gauthier, Florian 30 November 2018 (has links) Les ARNs sont impliqués dans de nombreux processus biologiques et peuvent adopter des structures secondaires différentes. Par leurs propriétés, ils constituent des outils biologiques puissants pour des applications diverses, tels les ARNs interférents (siARN) qui permettent l’extinction de l’expression des gènes par exemple. L’introduction de modifications sur des ARNs s’est avérée essentielle pour améliorer leurs propriétés et faciliter l’étude de leurs rôles biologiques et leurs applications thérapeutiques.Ce manuscrit rapporte la synthèse et les propriétés d’ARNs modifiés en position 2’ du ribose par des groupements contenant des ponts disulfures, sensibles à un environnement réducteur.Dans la première partie, la synthèse de prodrogues de siARNs partiellement modifiés par des groupements benzyldithiométhyles est décrite. Leurs stabilités thermiques et enzymatiques, ainsi que leur démasquage en milieu réducteur, sont montrés. Les résultats prometteurs d’activité inhibitrice et de pénétration cellulaire, sur une lignée cellulaire du sarcome d’Ewing, permettent d'envisager une application potentielle de ces siARNs modifiés comme outils thérapeutiques.La deuxième partie décrit une approche de co-délivrance par des siARNs couplés avec une drogue anticancéreuse, la doxorubicine, via un lien auto-immolable contenant des ponts disulfures. Les propriétés physico-chimiques des conjugués sont déterminées, et la libération du siARN et de la drogue en milieu réducteur est mise en évidence.La troisième partie présente une autre méthode de conjugaison en solution entre la position 2’ d’un ARN et des petites molécules (sucres, coumarine, biotine, acide désoxycholique, glutathion) via un pont disulfure. La synthèse des ARNs conjugués et leur devenir en milieu réducteur sont décrits.Dans la dernière partie, l’impact d’un lien avec un pont disulfure intrabrin entre les positions 2’ de deux nucléotides adjacents est étudié dans un duplex ou la partie boucle d’hairpins. L’influence du pont disulfure sur l’équilibre des conformations duplex et hairpin d’un ARN d’intérêt biologique est évaluée, en absence et en présence d’agents réducteurs. Une application en fluorescence d’une hairpin contrainte en tant que « molecular beacon » montre des utilisations potentielles de ce lien dans des outils pour étudier la conformation de structures secondaires d’ARNs ou dans des sondes pour détecter les agents réducteurs. / RNAs are involved in numerous biological processes and can adopt different secondary structures. Thanks to their properties, they are powerful biological tools for diverse applications, such as small interfering RNA (siRNA) for gene silencing. Modified RNAs have proven to be essential to improve their properties, and to facilitate the study of their biological and therapeutic functions.This manuscript reports the synthesis and properties of 2’-O-modified RNAs bearing disulfide-containing groups, sensitive to reductive environment.The first part describes the synthesis of siRNAs prodrugs bearing lipophilic benzyldithiomethyl groups. The thermal stability, the serum stability and the response to glutathione treatment of modified siRNAs are thoroughly investigated. The gene silencing and the gymnotic delivery of several siRNAs are assessed, and demonstrates promising results on Ewing’s sarcoma cell line.A second part concerns the co-delivery of siRNAs and a hydrophobic anti-cancer drug (doxorubicin) using a self-immolative spacer bearing disulfide bonds. The chemico-physical properties of these conjugates are determined and the recovery of native siRNA and doxorubicin in response to reductive treatment is highlighted.A third part presents the conjugation of RNAs to small molecules (sugars, coumarin, biotin, deoxycholic acid, glutathione) using disulfide linkages. The synthesis of the RNA conjugates and their release in reducing conditions are also demonstrated.The last part reports the synthesis and the impact of an intrastrand dimethylene disulfide bridge between 2’-O-positions of two adjacent nucleotides in an RNA duplex and in the loop of RNA hairpins. Then, the influence of this linkage on the folding of a biologically relevant RNA structure is reported. Finally, an application of a constrained hairpin as a fluorescent molecular beacon highlights its potential use in tools for understanding RNA folding and in probes for the detection of reducing reagents Oligoribonucléotide Ponts disulfures Prodrogues de siARN Liens auto-immolables Conjugaison Hairpin Oligoribonucleotide Disulfide bridge SiRNA prodrug Self-Immolative linker Conjugation Hairpin
24	Hairpin-Wicklungen für elektrische Fahrantriebe Lindner, Mathias, Moritz, Philipp, Jung, Jakob 28 February 2020 (has links) Dieser Beitrag beschäftigt sich mit den zunehmend Verbreitung findenden Hairpin-Wicklungen unter den besonderen Randbedingungen elektrischer Fahrantriebe. Dabei wird bewusst auf den in der Literatur bekannten Vergleich zu konventionellen Wicklungen hinsichtlich Nutfüllfaktor und Kühlanbindung verzichtet. Stattdessen konzentriert sich der Beitrag zunächst auf die Stromverdrängung, ihre Abhängigkeiten sowie Möglichkeiten zur Reduzierung des Effekts, wobei ausschließlich Maßnahmen vorgestellt werden, die zum Stand der Technik großserientauglich sind. Darüber hinaus werden Potentiale im Layout der Spulenseiten und Wickelköpfe aufgezeigt, die weit über die Optionen von aus Endlosdraht hergestellten Wicklungen hinausgehen. / This paper examines the increasingly popular hairpin windings under the dedicated boundary conditions of electrical drivetrains. A comparison to conventional windings regarding slot filling and cooling link will consciously be omitted since it is well known from literature. Instead, the paper concentrates on current displacement, its dependencies and possibilities for its reduction – with only measures being considered that state-of-the-art are suitable for mass-production. Furthermore, potentials in the layout of coil sides and end-windings are shown, which are far beyond the options of windings manufactured from continuous wire. info:eu-repo/classification/ddc/620 ddc:620
25	Mimes synthétiques de feuillets bêta : conception, synthèse et évaluation de leur capacité à moduler l'agrégation du peptide bêta-amyloïde 1-42. / Synthetic mimics of beta-sheets : design, synthesis and evaluation of their ability to modulate the aggregation of the beta-amyloid 1-42 peptide. Tonali, Nicolo 24 November 2016 (has links) La maladie d'Alzheimer (MA) est une maladie neurodégénérative liée à l’oligomérisation et à la fibrillation du peptide bêta amyloïde, avec Abêta 1-42 étant le plus agrégeant et neurotoxique. La cause exacte de la maladie d'Alzheimer n’est pas encore connue et donc il n'y a pas de traitement efficace contre cette maladie.Une stratégie prometteuse pourrait être l'inhibition de l'oligomérisation de monomères solubles d'Abêta;, en stabilisant la conformation non structurée native du peptide, à travers l’utilisation de composés capables d'empêcher la formation de feuillets bêta. En effet, les peu d'études structurales des espèces oligomériques et des fibrilles ont révélé que l'agrégation implique des structures en feuillet bêta.De nombreuses petites molécules ont été proposées pour leur capacité à inhiber ou moduler l'agrégation de Abêta 1-42 et sa toxicité. Cependant, le processus d'agrégation est très complexe et difficile à contrôler. Des études récentes indiquent que les oligomères solubles transitoires précédant la formation de fibrilles sont les espèces les plus toxiques. Ainsi, le développement d'inhibiteurs ciblant à la fois l’oligomérisation et la fibrillation reste difficile en dépit de son importance thérapeutique. Les peptides sont des alternatives raisonnables aux autres produits pharmaceutiques chimiques. En particulier, l'inhibition de l'agrégation de Abêta; a été ciblée en utilisant des éléments d'auto-reconnaissance (SRE), qui sont des séquences d'acides aminés clés impliqués dans les différentes espèces agrégées. À notre connaissance, l'utilisation de petites "bêta-hairpins" acycliques a été très rarement explorée comme ligands de feuillets-bêta et comme inhibiteurs de l'agrégation.Comme l’agrégation de Abêta est un processus dynamique et complexe, nous avons supposé que les "bêta-hairpins" flexibles pourraient mieux s'adapter dans l'interaction avec les différentes conformations de Abêta 1-42 présents pendant le processus d'agrégation, et en particulier dans les premiers stades de l'oligomérisation. Nous avons conçu des mimes de feuillets bêta acycliques basés sur un squelette semi-rigide de type pipéridine-pyrrolidine comme inducteur flexible de coude bêta, et sur différents SREs de Abêta 1-42. Le choix des SREs a été basée sur les structures d'oligomères et fibrilles.La capacité de tous les composés a été évaluée par spectroscopie de fluorescence à la thioflavine-T pour déterminer l'activité inhibitrice. Les résultats obtenus ont été complétés par microscopie à transmission électronique. Les composés les plus prometteurs ont également été étudiés par électrophorèse capillaire (EC) pour suivre les étapes très précoces du processus d'oligomérisation. Les meilleurs inhibiteurs ont été étudiés afin de déterminer leur capacité à réduire la toxicité de Abêta 1-42 sur des cellules de neuroblastome SH-SY5Y.Nous rapportons également dans cette thèse les études conformationnelles, effectuées par RMN et réalisées pour étudier et confirmer la capacité de composés de se structurer en solution comme des "bêta-hairpins".Enfin, nous avons développé une voie de synthèse pour obtenir de nouvelles chaînes peptidomimétiques composées par des résidus aza-aminoacides. Dans la littérature, seules des séquences peptidiques comportant un seul résidu aza-aminoacide au milieu, sont connues, mais les propriétés de liaison hydrogène d’un 2:1 [aza/alpha]-tripeptide ne sont pas encore, à notre connaissance, étudiées ni exploitées dans la conception d’inhibiteurs des interactions protéine-protéine. Nous présentons dans cette thèse les études conformationelles réalisées par RMN, cristallographie aux rayons X et modélisation moléculaire.On peut conclure que les éléments structurels décrits dans cette thèse fournissent des indications précieuses dans la compréhension du processus d'agrégation du peptide Abêta 1-42 et dans la conception de nouveaux " bêta-hairpins" acycliques ciblant des protéines amyloïdes. / Amyloidosis is the generic word to name a group of diseases that are caused by the misfolding and extracellular accumulation of various proteins. Alzheimer’s disease (AD) is a neurodegenerative disorder linked to oligomerization and fibrillization of amyloid β peptides, with Aβ 1-42 being the most aggregative and neurotoxic one. To date, the exactly cause of the Alzheimer's disease is not still known and so there is no effective treatment of the disease.An attractive strategy for treating AD could be the inhibition of the oligomerization of soluble Aβ monomers, by stabilizing the native unstructured conformation of the peptide, using compounds able to prevent the formation of β-sheets. Indeed, few structural studies of oligomeric species and fibrils revealed that the aggregation involves β-sheet structures.A large number of small molecules have been proposed for their ability to inhibit or modulate Aβ1-42 aggregation and toxicity. However, the aggregation process is highly complex, and extremely difficult to control. Recent studies indicate that soluble transient oligomers preceding fibril formation are highly toxic species. Thus, the development of inhibitors targeting both oligomerization and fibrillization remains challenging despite its therapeutic significance. Peptides are today reasonable alternatives to small molecule pharmaceuticals. In particular, inhibition of Aβ-aggregation has been targeted using self-recognition elements (SREs), which are key amino acid sequences involved in the different aggregated species. To our knowledge, the use of small acyclic β-hairpins has been very rarely explored as β-sheet binders and inhibitors of aggregation.As Aβ-aggregation is a dynamic and complex process, we hypothesized that flexible β-hairpins could adapt themselves in the interaction with the different Aβ1-42 conformations present during the aggregation process, and in particular in the early stages of oligomerization. We designed acyclic β-hairpin mimics based on a piperidine-pyrrolidine semi-rigid scaffold developed recently as a flexible β-turn inducer, and on different SREs of Aβ1-42. The choice of the SREs was based on oligomer and fibril structures.The ability of all compounds to influence the Aβ 1-42 fibrillization process was evaluated by thioflavin-T fluorescence spectroscopy, used as an evaluation tool to define the inhibitory activity. The obtained results were successively supplemented by transmission electron microscopy. The most promising compounds were also studied by Capillary Electrophoresis (CE) using a method we recently proposed to monitor the very early steps of the oligomerization process overtime. The best inhibitors were investigated to determine their ability to reduce the toxicity of aggregated Aβ1-42 to SH-SY5Y neuroblastoma cells.Together with the evaluation of these molecules, we report in this thesis the conformational studies performed by NMR. These structure investigations were performed to investigate and confirm the β-hairpin conformational preference of the compounds in solution.Finally, we performed a practical synthetic pathway to obtain new peptidomimetic chains composed by aza-amino acid residues. In the literature only peptide sequence, with just one aza-amino acid residue in the middle, are known, but the hydrogen-bonding properties of 2:1 [Aza/α]-tripeptides have not yet, to our knowledge, been exploited in the design of the inhibition of protein-protein interactions. We present in this thesis the conformational studies of the 2:1 [Aza/α]-tripeptide sequence by NMR analyses, X-ray crystallography and molecular modelling.In conclusion, the structural elements made in this thesis provide valuable insights in the understanding of the aggregation process of Aβ 1-42 peptide and to explore the design of novel acyclic β-hairpin targeting amyloid-forming proteins. Peptidomimétique Feuillets bêta Beta-Hairpin Peptide beta-Amyloïde 1-42 Azatide Électrophorèse capillaire Peptidomimetic Beta-Sheet Beta-Hairpin Beta-Amyloid 1-42 peptide Azatide Capillary electrophoresis
26	Étude du mécanisme de repliement de l'ubiquitine de levure par l'introduction de contraintes conformationnelles dans son état dénaturé Turcotte, Jean-François January 2002 (has links) Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal. Structure native Fluorescence Tryptophane Tour bêta Bêta-hairpin Stopped-flow Dichroïsme circulaire His-tag Tryptophan zipper
27	Design & Synthesis of Peptidomimetics Adopting Secondary Structures for Inhibition of p53/MDM2 Protein-protein Interaction and Multiple Myeloma Cell Adhesion Kil, Hyun Joo 02 April 2014 (has links) The protein-protein interactions (PPIs) occur when two or more proteins are bound together. Also, this protein-protein interactions (PPIs) cause the various biological processes in the body. Due to this reason, abilities of controlling or inhibiting PPIs can give us promising advantages like (1) better understanding of biological systems, (2) development of new diagnostic approaches for health or disease, and (3) establishment of novel molecular therapeutics. Many proteins adopt the secondary structures, where most of protein-protein interactions take place. -Helices and -sheets are the prevalent secondary conformations, but there are extended secondary structures such as -hairpins, -turns, 310 helix, and so on. As a result, construction of molecules mimicking these protein secondary structures is tractable target for drug design. Moreover, in drug discovery, designing peptidomimetics or non-peptidic mimetics is a popular strategy instead using peptides or truncated peptides because peptides or truncated peptides are prone to proteolysis and degraded in the body. Also, peptidomimetics and non-peptidic mimetics have not only the similar topology as peptides but also resistance to proteolysis. Due to these advantages, in this study, peptidomimetics or non-peptidic mimetics were synthesized and tested for different targets: (1) synthesis of non-peptidic -helical mimetics for p53-MDM2 inhibition, (2) solution-phase synthesis of -hairpin peptide for the inhibition of multiple myeloma cells (MM) adhesion, and (3) synthesis of -hairpin peptoid-peptide hybrids. The synthesis in all three different studies was succeeded, but they still need some improvements. For instance, non-peptidic -helical mimetics, terpyrimidyl derivatives, were synthesized successfully, but they did not show any bioactivity against p53-MDM2. Also, they have a solubility problem. Based on these results, it is necessary to improve the pharmacokinetic properties and bioactivity by changing the substituents on the rings or structures. The -hairpin peptide for the second case already showed good bioactivity against multiple myeloma (MM). For the next level of bio-study, the considerable amount of a -hairpin peptide was demanded. In order to make the substantial -hairpin peptide, the solution phase peptide synthesis was chosen instead of the solid phase peptide synthesis because of the cost-effect. Two methodology were tried for the solution-phase peptide synthesis: (1) segment ligation and (2) continuous synthesis. In the former case, the -hairpin peptide synthesis was successful, but, in the latter case, it is necessary to investigate the appropriate coupling reagents for each step. Peptoid-peptide hybrids has been one of the popular peptidomimetics in the last two decades. Also, mimicking the peptide secondary structure in peptoids has been studied extensively these days. The combination of these two factors was the goal for the third case. Because peptoid-peptide hybrids with a secondary structure can be recognizable by native proteins and resistant to proteolysis. So far, three sets of peptoid-peptide hybrids were synthesize and checked the secondary structure formation by using NMR. However, there was no indication of the secondary structure formation in the three sets of peptoid-peptide hybrids. This result suggests that it is necessary to introduce the more constrained components in peptoid-peptide hybrids. In the above three chapters, it has been tried to find the new drug candidates by synthesizing peptidomimetics or non-peptidic mimetics. Even though the synthesis was successful, some intended results such as the bioactivity or the secondary structure formation were not obtained. However, these results can give us the inspirations to improve properties of peptidomimetics or non-peptidic mimetics for a certain purpose, which leads to earn the intended results and eventually find new drug candidates. solution phase synthesis α-helix β-hairpin peptoid-peptide hybrids Chemistry
28	Dynamique des espèces chargées dans un réacteur de gravure diélectrique à couplage capacitif excité par deux fréquences Curley, Garrett 30 April 2008 (has links) (PDF) Les plasmas à couplage capacitif excités par deux fréquences sont utilisés pour la gravure des diélectriques, étape importante dans la fabrication de composants de microélectronique. L'utilisation des deux sources RF, une à basse fréquence, l'autre à haute fréquence, est censée permettre le contrôle indépendant du flux ionique et de l'énergie ionique. Les gaz fluorocarbonés jouent le rôle clé en fournissant les espèces nécessaires à la gravure des motifs nanométriques. Ces plasmas fluorocarbonés sont complexes, ils sont composés de plusieurs types de radicaux neutres, d'ions positifs et d'ions négatifs. Nous étudions un réacteur industriel modifié, avec des mélanges gazeux de type Ar/O2/C4F8 et Ar/O2/CF4, à des pressions proches de 50 mTorr (6.6 Pa) et excité par des sources RF de 27 et 2 MHz. La mesure des ions négatifs et leurs effets sur les propriétés électriques du plasma est le sujet d'étude principal de cette thèse. Plusieurs techniques de diagnostics sont mises en oeuvre pour caractériser les densités et les flux des particules chargées. Une sonde de flux ionique à polarisation RF est installée dans l'électrode du haut. La densité électronique est mesurée dans le centre de la décharge par une sonde de résonance micro-ondes, communément appelée sonde hairpin. La technique de spectroscopie dite « cavity ring-down » (CRDS) est appliquée à la mesure de la densité d'ions négatifs du fluor en détectant l'absorption large bande due au photodétachement de l'ion. La fraction d'ions négatifs est déduite des mesures de sondes en comparant le rapport du flux ionique sur la densité électronique à la valeur théorique obtenue par un modèle fluide d'un plasma électronégatif. Plasma diagnostics etching CRDS hairpin
29	Studies on the Conformation of Transmembrane Polypeptides in Membrane Proteins Cassel, Marika January 2005 (has links) <p>The major aim of the studies that this thesis is based on has been to better define the topological determinants of the formation of so-called helical hairpins during membrane protein assembly in the ER membrane.</p><p>The helical hairpin is a basic folding unit in membrane proteins. It is composed of two closely spaced transmembrane helices with a short connecting loop and it is believed to be inserted into the membrane as one compact unit. It is becoming increasingly clear that the helical hairpin is a very common structural element in membrane proteins and a detailed understanding of its properties is of central importance.</p><p>We demonstrate that the efficiency of formation of helical hairpins depends both on the overall length of the hydrophobic segment, on the amino acids flanking the transmembrane segment, and on the identity of the central, potentially turn-forming residues. We also show that interhelical hydrogen bonds between pairs of Asn or Asp residues can induce helical hairpin formation.</p><p>A detailed topology mapping is also reported for the <i>Escherichia coli </i>inner membrane chloride channel YadQ, a protein for which the X-ray structure is known. Our results provide a critical test of the reporter fusion approach and offer new insights into the YadQ folding pathway.</p><p>In summary, the results present in this thesis have increased our understanding of the determinants of membrane protein topology and structure. Furthermore, the information obtained can be used to improve current models for predictions of membrane protein topology.</p> membrane protein topology transmembrane helix helical hairpin turn propensity Biochemistry Biokemi
30	Mechanisms and DNA Specificity in Site-specific Recombination of Integron Cassettes Johansson, Carolina January 2007 (has links) <p>Bacterial resistance to antibiotics has become a serious problem. This is due to the remarkable ability of bacteria to respond and rapidly adapt to environmental changes. Integrons are elements with the capacity for gene capture by an integron-encoded site-specific recombinase called IntI. IntI binds and acts at the recombination sites, <i>attI </i>and<i> attC</i> resulting in excision and integration of short DNA elements called gene cassettes carrying an <i>attC</i> site in the 3’ end. Several families of antibiotic resistance genes are borne on gene cassettes in integrons connected to mobile elements. Other cassettes reside in the larger and ancestral superintegrons located on chromosomes in both pathogenic and environmental bacteria. Due to their close connection with lateral gene transfer systems, it is possible that integrons are functionally dependent on those networks. This work presents arguments for such connections. The<i> attC</i> of the <i>aadA1-qacE</i> cassette junction in Tn<i>21</i> was characterized in detail. Like other <i>attC</i> sites, it contains two pairs of inverted repeats and is almost palindromic. By using electrophoretic mobility shift assays, this study showed that IntI1 binds only to the bottom strand of <i>attC</i>. Upon folding the strand into a hairpin, a few chiral hairpin distortions define both the strand choice and also the appropriate orientation of the highly symmetrical site. Structural recognition also explains the wide sequence variation among <i>attC</i> sites. We have documented the initial cleavage step in recombination in IntI extracts and integrase levels in extracts were evaluated by a new method. Mutagenesis and homology modelling were performed to find amino acid residues in IntI1 that are important for recognition of <i>attC</i> hairpin-DNA. Comparisons were made with other tyrosine family members to explain how integron integrases differ in site-recognition and also in their mechanism of strand exchange.</p> Microbiology lateral gene transfer site-specific recombination tyrosine recombinase integron single-stranded DNA hairpin Mikrobiologi

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