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Showing 71 to 80 of 87 (0.086 seconds)Spelling suggestions: "subject:"directed anevolution"" "subject:"directed arevolution""
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Usměrněná evoluce myšího polyomaviru / Directed evolution of mouse polyomavirusVáňová, Jana January 2016 (has links)
The method of directed evolution represents a new approach to generate proteins with new or altered properties. The principle of directed evolution is random mutagenesis of the coding sequence for a protein of our interest followed by selection of generated mutants for the desired property. The aim of this pilot study was to investigate the possibility of utilization of directed evolution for alteration of mouse polyomavirus original tropism and virus retargeting to a model prostate cancer cell line. To generate randomly mutated gene encoding the major capsid protein of mouse polyomavirus, which is responsible for the interaction of the virus with cellular receptor for viral cell entry, error-prone PCR and DNA shuffling methods were used. Production of viruses composed of mutant major capsid protein was ensured by Cre/loxP site-specific recombination. The thesis also dealt with the design and characterization of the system for viral mutant selection. It was found that the prostate cancer cell lines markedly vary in their ability to bind and internalize particles derived from mouse polyomavirus. This knowledge can be used for the preparation of virus-like particles for prostate cancer diagnostics in the future. The study demonstrated that the method of directed evolution can be used for production...
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Directed evolution of an HIV-1 LTR specific recombinase for anti-retroviral therapy- a proof of concept studySarkar, Indrani 26 September 2006 (has links)
The prospect of the work presented in this thesis has been to engineer Cre recombinase to recognize and recombine a sequence from an HIV-1 Long Terminal Repeat (LTR), characterize the recombination proficiency of the evolved recombinase in mammalian cells and explore the potential of the recombinase for a novel antiretroviral strategy.
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La méthylation flavine-dépendante d’acides nucléiques : aspects évolutifs, métaboliques, biochimiques et spectroscopiques / Flavin-dependent methylation of nucleic acids : evolutionary, metabolic, biochemical and spectroscopic aspectsSournia, Pierre 14 December 2016 (has links)
La méthylation de l’uridine sur son carbone 5 est apparue au cours de l’évolution sous plusieurs formes. Tout d’abord, les thymidylate synthases permettent la synthèse de novo du dTMP, un précurseur essentiel de l’ADN des trois règnes du vivant. Deux familles de thymidylate synthases sont connues à ce jour : ThyA et la flavo-enzyme ThyX, codées par des gènes hétérologues et ayant des structures et mécanismes réactionnels radicalement différents. En outre, cette méthylation de l’uridine est apparue (probablement plus tard) sous forme de modifications post-transcriptionnelles des ARNt et ARNr. Cette thèse vise à questionner les contraintes évolutives ayant menés indépendament à ces quatres types de méthylation de l’uridine.Une première partie décrit l’identification d’une voie métabolique permetant la complémentation du phénotype d’auxotrophie pour la thymidine par des analogues nucléotidiques chez Escherichia coli. Une approche de biologie synthétique en vue d’établir une voie alternative de biosynthèse du thymidylate a aussi été mise en œuvre. Une technique de sélection de gènes de complémentation du phénotype d’auxotrophie pour la thymidine, issus de mutagénèse aléatoire, a pu être développée. Dans une seconde partie, des études biochimiques et sppectroscopiques ont été réalisées sur la méthyle-transférase flavine-dépendante TrmFO, responsable de la méthylation post-transciptionnelle de l’uridine 54 des ARNt de certains microorganismes.L’implication de certains résidus dans la fixation du substrat a pu être déterminée d’une part, et certains intermédiaires réactionnels potentiels ont été caractérisés spectralement d’autre part. Ces dernières observations s’appuient, en outre, sur des études en cours de spectroscopie résolue en temps et des simulations de dynamique moléculaire afin de mieux comprendre les flavoprotéines en général et les méthyle transférases flavine-dépendantes en particulier. / Enzymes catalyzing the methylation of uridine at its carbon 5 position have appeared independently in different forms across evolution. Thymidylate synthases ThyA and the flavoprotein ThyX catalyze the de novo synthesis of dTMP, an essential DNA precursor in the three domains of life. They are encoded by heterologous genes and have drastically different structures and reaction mechanisms. On the other hand, this uridine methylation is also performed by tRNA and rRNA post-transcriptional modification enzymes.This thesis assesses the question of the evolutionary constraints that have led independently to four kinds of uridine methylation. The first part describes the identification of a metabolic pathway allowing the complementation of thymidine auxotrophy by non-natural nucleotide analogs in Escherichia coli. A synthetic biology approach, aiming to establish an alternative pathway for thymidylate biosynthesis, was also implemented and a selection strategy for thymidine auxotrophy-complementing genes, could be developed.In a second part, biochemical and spectral studies where realised on the flavin-dependent methyltransferase TrmFO, responsible for the post-transcriptional methylation of uridine at the invariant position 54 of tRNA in several microorganisms. The involvement of specific amino acid residues in substrate fixation and in stabilization of potential reaction intermediates was demonstrated. Their spectral characterization supports previously proposed reaction schemes for flavin-dependent thymidylate forming enzymes. These observations are currently being pursued by parallel approaches combining time-resolved spectroscopy and molecular dynamics simulations, aiming to further our understanding of how flavin mediates the transfer of carbon molecules from folate to uracil rings.
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In Vitro Synthetic Biology Platform and Protein Engineering for BiorefineryKim, Jae Eung 17 July 2017 (has links)
In order to decrease our dependence on non-renewable petrochemical resources, it is urgently required to establish sustainable biomass-based biorefineries. Replacing fossil fuels with renewable biomass as a raw feedstock for the production of chemicals and biofuels is a main driving force of biorefinering. Almost all kinds of biomass can be converted to biochemicals, biomaterials and biofuels via continuing advances on conversion technologies. In vitro synthetic biology is an emergent biomanufacturing platform that circumvents cellular constraints so that it can implement some biotransformations better than whole-cell fermentation, which spends a fraction of energy and carbon sources for cellular duplication and side-product formation. In this work, the in vitro synthetic (enzymatic) biosystem is used to produce a future carbon-neutral transportation fuel, hydrogen, and two high-value chemicals, a sugar phosphate and a highly marketable sweetener, representing a new portfolio for new biorefineries.
Hydrogen gas is a promising future energy carrier as a transportation fuel, offering a high energy conversion efficiency via fuel cells, nearly zero pollutants produced to end users, and high mass-specific and volumetric energy densities compared to rechargeable batteries. Distributed production of cost-competitive green hydrogen from renewable biomass will be vital to the hydrogen economy. Substrate costs contribute to a major portion of the production cost for low-value bulk biocommodities, such as hydrogen. The reconstitution of 17 thermophilic enzymes enabled to construct an artificial enzymatic pathway converting all glucose units of starch, regardless of the branched and linear contents, to hydrogen gas at a theoretic yield (i.e., 12 H2 per glucose), three times of the theoretical yield from dark microbial fermentation. Using a biomimetic electron transport chain, a maximum volumetric productivity was increased by more than 200-fold to 90.2 mmol of H2/L/h at a high starch concentration from the original study in 2007.
In order to promote economics of biorefineries, the production of a sugar phosphate and a fourth-generation sweetener is under development. D-xylulose 5-phosphate (Xu5P), which cannot be prepared efficiently by regular fermentation due to the negatively charged and hydrophilic phosphate groups, was synthesized from D-xylose and polyphosphate via a minimized two-enzyme system using a promiscuous activity of xylulose kinase. Under the optimized condition, 32 mM Xu5P was produced from 50 mM xylose and polyphosphate, achieving a 64% conversion yield, after 36 h at 45 °C. L-arabinose, a FDA-approved zero-calorie sweetener, was produced from D-xylose via a novel enzymatic pathway consisting of xylose isomerase, L-arabinose isomerase and xylulose 4-epimerase (Xu4E). Promiscuous activity of Xu4E, a monosaccharide C4-epimerase, was discovered for the first time. Directed evolution of Xu4E enabled to increase the catalytic function of C4-epimerization on D-xylulose as a substrate by more than 29-fold from the wild-type enzyme. Together, these results demonstrate that the in vitro synthetic biosystem as a feasible biomanufacturing platform has great engineering, and can be used to convert renewable biomass resources to a spectrum of marketable products and renewable energy.
As future efforts are addressed to overcome remaining challenges, for example, decreasing enzyme production costs, prolonging enzyme lifetime, engineering biomimetic coenzymes to replace natural coenzymes, and so on. This in vitro synthetic biology platform would become a cornerstone technology for biorefinery industries and advanced biomanufacturing (Biomanufacturing 4.0). / Ph. D.
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Neue Zugänge zu enantioselektiven lipolytischen Enzymen durch fluoreszenzbasierte Durchmusterung kombinatorischer Bibliotheken / Novel approaches to enantioselective lipolytic enzymes via fluorescence based screening of combinatorial librariesBecker, Stefan 31 October 2007 (has links)
No description available.
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Etudes structures/Fonctions et Ingénierie de l'alpha-L-arabinofuranosidase de Thermobacillus Xylanilyticus / Structure/functions studies and engineering of the Thermobacillus xylanilyticus alpha-L-arabinofuranosidaseArab-Jaziri, Faten 23 October 2012 (has links)
Dans ce projet de thèse, une variété de techniques a été employée pour étudier l’alpha-L-arabinofuranosidase de Thermobacillus xylanilyticus (TxAbf), notamment en ce qui concerne les relations structure/fonctions et son activité de transglycosylation. Nos travaux ont eu pour objectif d’apporter un éclairage quant au rôle de la dynamique dans l’activité catalytique de la TxAbf, en se focalisant sur le mouvement de la boucle bêta2alpha2, et d’explorer la spécificité du sous-site [+1], un élément du site actif qui est particulièrement pertinent pour l’activité de transglycosylation. Enfin, nous avons entrepris des travaux d’ingénierie visant la création de transarabinofuranosylases performantes. Nos résultats confirment le rôle important de la boucle bêta2alpha2 et suggèrent que le mouvement de celle-ci permet de relocaliser les résidus His98 et Trp99 de manière à créer un site actif opérationnel. Le résidu Trp99 apparaît comme un élément clé du sous-site [-1] de la TxAbf, alors que le résidu His98, qui n’est pas conservé dans l’ensemble des enzymes de la famille GH51, participerait à la formation d’un sous-site [+2’]. Concernant le sous-site [+1], nos résultats confirment la large spécificité celui-ci et montrent clairement que l’encombrement stérique à la position C-5 des glycosides accepteurs est défavorable à la réaction de transglycosylation. Par ailleurs, nous avons pu réaliser pour la première fois la synthèse de trisaccharides, utilisant comme accepteur l’alpha-D-xylobioside de benzyle et comme donneur le β-D-galactofuranoside de para-nitrophényle. Enfin, nos travaux de mutagenèse aléatoire et le criblage de banques a permis d’identifier deux mutations Phe26Leu et Trp178Arg, qui se situent au niveau des sous-sites [-1] et [+1], respectivement. Selon nos premières analyses, les mutants correspondants rendraient moins favorable la déglycosylation de l’intermédiaire glycosyl-enzyme par une molécule d’eau, réduisant ainsi l'hydrolyse secondaire et stabilisant par la même occasion le produit de synthèse. En employant une deuxième méthode de criblage plus sophistiquée, impliquant l’utilisation d’accepteurs xylo-oligosaccharidiques, nous avons pu obtenir des enzymes mutées qui (i) catalysent des réactions de transglycosylation en présence de xylobiose (l’enzyme sauvage ne catalysant que très faiblement cette réaction) (ii) se caractérisent par une absence quasi-totale d’hydrolyse secondaire et (iii) comportent des mutations situées à différentes positions (e.g. au niveau des sous-sites [-1], [+1] et [+2’]) et qui semblent moduler le ratio Transglycosylation/Hydrolyse en faveur de la synthèse / In this investigation, a variety of techniques to study the Thermobacillus xylanilyticus alpha-L-arabinofuranosidase (TxAbf) have been employed, especially with regard to structure-functions relations and the enzyme’s ability to catalyze transglycosylation reactions. The aim of our work was to better understand the dynamic role of the bêta2alpha2 loop and to explore the substrate specificity of the subsite [+1], an important active site element with respect to transglycosylation. Finally, this work has focused on the creation of new transarabinofuranosylases using random engineering and screening approaches.Our results confirm the important role of the bêta2alpha2 loop and suggest that its movement during catalysis relocalizes residues His98 and Trp99 and thus permits the formation of a catalytically-viable active site configuration. Trp99 is relocalized from a solvent exposed position into a buried position and forms a critical element of subsite [-1], whereas His98, a residue that is not conserved in all GH51 members, appears to form a part of subsite [+2’]. Regarding subsite [+1], our results confirm its wide specificity and indicate that steric bulkiness at the C-5 position of glycoside acceptors leads to reduced transglycosylation. In this work, we have also demonstrated for the first time the synthesis by TxAbf of trisaccharides, using benzyl alpha-D-xylobioside as the acceptor and para-nitrophenyl β-D-galactofuranoside as the donor. Finally, random mutagenesis and screening has led to the identification of two mutations Phe26Leu and Trp178Arg, which are located in sub-sites [-1] and [+1] respectively, that appear to reduce the water-mediated deglycosylation of the glycosyl-enzyme intermediate. Consequently, the corresponding mutants reduce secondary hydrolysis and favourably affect the operational stability of synthetic products. Using a second more sophisticated screening method that involves the use of xylo-oligosaccharide acceptors, it has been possible to isolate mutant enzymes that (i) catalyze transglycosylation reactions in the presence of xylobioside (a reaction that is poorly catalyzed by wild type TxAbf), (ii) show almost no secondary hydrolysis, (iii) display point mutations at several key locations (e.g. in sub-sites [-1], [+1] and [+2’]) that seem to modulate the Transglycosylation/Hydrolysis ratio in favour of synthesis
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Transcriptional and physiological analysis of the model cyanobacterium Synechocystis PCC 6803 under ethanologenic and external ethanol conditionsJakorew, Lew 01 July 2013 (has links)
Bis zum heutigen Zeitpunkt ist wenig über die physiologischen Effekte von Ethanol auf Cyanobakterien bekannt. Dies ist nicht überraschend, da es unwahrscheinlich ist, dass Cyanobakterien in ihrer natürlichen Umwelt auf Wachstums inhibierende Konzentrationen stoßen, und deswegen war die Stressantwort auf Ethanol nur von geringerem Interesse für die Forschungsgemeinschaft. Nichts desto weniger sind durch neue Entwicklungen im Biofuel- Sektor, insbesondere im Kontext der Produktion von Ethanol mit Hilfe von genetisch manipulierten Cyanobakterien, Kenntnisse über die zelluläre Toleranz und Zellantwort gegenüber dem gewünschten Produkt von grundlegender Bedeutung. Microarray-Experimente, die einen Einblick in die zelluläre Antwort durch Änderung der Genexpression auf Ethanolproduktion bringen sollten, zeigten, dass Gene des Phycocyanin-Operons als die am signifikantesten und stärksten betroffenen funktionalen genetischen Elemente. Weitere Microarray-Experimente mit verschiedenen Konzentrationen von extern zugefügtem Ethanol zeigten eine zeitverzögerte (24h) Hochregulation von PS II-Genen und dem Transkript cpcG2. Diese Arbeit beschreibt weiterhin die Ergebnisse eines Experiments zur "Evolution im Labor", das die intrinsische Kapazität von Synechocystis sp. PCC 6803 zur Erweiterung der Toleranz gegenüber Ethanol aufzeigen sollte. Die erhöhte Ethanoltoleranz führte zu einer Optimierung der endogenen Ethanolproduktion. Derartige Versuche zur Stammoptimierung durch "Evolution im Labor" sollten daher geeignete Mittel sein, um bestimmte Eigenschaften von Organismen für biotechnologische Ziele zu verbessern. In der Gesamtheit geben die Ergebnisse dieser Arbeit Einblicke in die Antwort der Synechocystis-Zellen auf Ethanol auf den Ebenen des Stoffwechsels und der Genexpression und stellen eine wertvolle Datensammlung für zukünftige Versuche mit dem Ziel dar, die Ethanolproduktionsrate in Cyanobakterien durch genetic engineering zu erhöhen. / Until recently, little has been known about the effects of ethanol on the physiology of cyanobacteria. This is not surprising as it is unlikely that cyanobacteria encounter growth inhibiting concentrations of ethanol in their natural environment, and thus the ethanol stress response used to be of limited interest to the scientific community. Nevertheless, for recent biotechnological approaches in the field of biofuel production, and in particular for the attempts to produce ethanol with the help of genetically modified microalgae and cyanobacteria, knowledge of cellular tolerance and response to the desired product is pivotal. Microarray analysis demonstrating that a specific part of the phycocyanin operon is the most significantly and strongly affected functional genetic subsystem under ethanol producing conditions. Additional microarray experiments with different concentrations of external ethanol showed a time-delayed (24h) characterized by a prominent up-regulation of PS II genes with phycocyanin linker proteins playing a major role in the transcriptional response. Another aspect of this work was an artificial evolution experiment, which was performed to delineate the intrinsic capacity of Synechocystis sp. PCC6803 to tolerate ethanol. In addition, the evolved strain proved to be a superior background for endogenous ethanol production showing that artificial evolution experiments are a suitable method to improve certain features of organisms for biotechnological purposes. Overall, the results of this work give new insight into physiological and gene regulatory responses of Synechocystis sp. PCC6803 exposed to ethanol and will be a very valuable dataset for future attempts to improve cyanobacterial ethanol production by the means of genetic engineering.
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Development of an orthogonal ligand-receptor pair based on synthetic estrogen analogs and engineered estrogen receptor for transcriptional regulation / Entwicklung eines orthogonalen Liganden-Rezeptor-Paares auf der Basis von synthetischen Östrogen-Analoga und einem manipulierten Östrogen-Rezeptor zur transkriptionellen RegulationIslam, Kazi Mohammed Didarul 03 May 2007 (has links)
No description available.
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Directed Evolution of Glutathione Transferases with Altered Substrate Selectivity Profiles : A Laboratory Evolution Study Shedding Light on the Multidimensional Nature of EpistasisZhang, Wei January 2011 (has links)
Directed evolution is generally regarded as a useful approach in protein engineering. By subjecting members of a mutant library to the power of Darwinian evolution, desired protein properties are obtained. Numerous reports have appeared in the literature showing the success of tailoring proteins for various applications by this method. Is it a one-way track that protein practitioners can only learn from nature to enable more efficient protein engineering? A structure-and-mechanism-based approach, supplemented with the use of reduced amino acid alphabets, was proposed as a general means for semi-rational enzyme engineering. Using human GST A2-2*E, the most active human enzyme in the bioactivation of azathioprine, as a parental enzyme to test this approach, a L107G/L108D/F222H triple-point mutant of GST A2-2*E (thereafter designated as GDH) was discovered with 70-fold increased activity, approaching the upper limit of specific activity of the GST scaffold. The approach was further experimentally verified to be more successful than intuitively choosing active-site residues in proximity to the bound substrate for the improvement of enzyme performance. By constructing all intermediates along all putative mutational paths leading from GST A2-2*E to mutant GDH and assaying them with nine alternative substrates, the fitness landscapes were found to be “rugged” in differential fashions in substrate-activity space. The multidimensional fitness landscapes stemming from functional promiscuity can lead to alternative outcomes with enzymes optimized for other features than the selectable markers that were relevant at the origin of the evolutionary process. The results in this thesis suggest that in this manner an evolutionary response to changing environmental conditions can readily be mounted. In summary, the thesis demonstrates the attractive features of the structure-and-mechanism-based semi-rational directed evolution approach for optimizing enzyme performance. Moreover, the results gained from the studies show that laboratory evolution may refine our understanding of evolutionary process in nature.
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In vivo and in vitro directed evolution of enzymes using droplet-based microfluidics / Evolution dirigée d'enzymes in vivo et in vitro par microfluidique de gouttelettesGodina, Alexei 01 February 2013 (has links)
L’ingénierie des protéines fonctionnelles est un processus d’amélioration des propriétés physiques ou catalytiques d’enzyme au travers d’approches rationnelles et d'évolution dirigée, aussi bien que la combinaison des deux méthodes. Malgré le progrès de la modélisation moléculaire des protéines, les méthodes de prédiction restent aléatoires et un grand nombre de variantes restent à tester. De ce fait, le développement et l’utilisation d’un système de criblage d’activité de protéines à très haut débit, comme la microfluidique en gouttes, est indispensable. Cette thèse de doctorat présente trois projets d’évolution dirigée de protéines en trois approches différentes avec expression d’enzyme in vitro et in vivo. Les plateformes microfluidiques ont été développées et validées pour chaque projet. De plus, plusieurs banques de variants ont été criblées avec, dans certains cas, isolement de molécules 5-10 fois que le clone parental. / This work describes the development of high-throughput droplet microfluidic platforms fine-tuned for protein of interest and their employment in directed evolution experiments. When not available, fluorogenic assay for monitoring desired enzyme activity (-ies) in droplets was developed. Moreover, the in vivo expression allowed the successive integration of microfluidic modules on the same chip. After a couple of evolution rounds the initial retro-aldolase variant was significantly improved. In other project, to meet industrial requirements a high-throughput screening platform for protease evolution in detergent has been assembled and validated. Two evolution rounds showed the accumulation of a certain pool of beneficial mutations over the selection rounds. The research described in this work highlighted that in vitro expression systems are sensitive to the amount of supplied DNA and reaction conditions. This observation led to the development of a multistep completely in vitro microfluidic platform.
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