Global ETD Search

71	Développement d'une nouvelle plateforme végétale de production de protéines recombinantes par l'utilisation des plantes carnivores du genre Nepenthes / Development of a new plant expression system for recombinant protein production by use of carnivorous plants from Nepenthes genus Miguel, Sissi 27 June 2013 (has links) Résumé confidentiel / Not available Plantes carnivores Nepenthes Protéines recombinantes Transformation génétique Agrobacterium tumefaciens Enzymes digestives Promoteurs GFP Carnivorous plants Nepenthes Recombinant proteins Genetic transformation Agrobacterium tumefaciens Digestive enzymes Promoters GFP 572.6 660.6
72	Einwanderung und Differenzierung von hämatogenen Zellen zu Mikroglia im adulten Zentralnervensystem Wehner, Tim 26 January 2004 (has links) Zur langfristigen Markierung von hämatogenen Zellen wurde Knochenmark mit dem Gen für das grüne fluoreszierende Protein (GFP) transduziert und in bestrahlte Empfängermäuse transplantiert. Die GFP-Expression im peripheren Blut dieser Tiere war über den untersuchten Zeitraum von vier Monaten stabil. Die Hirne der Empfängertiere wurden zu den Zeitpunkten zwei, vier, acht und fünfzehn Wochen nach Knochenmarktransplantation auf die Präsenz von GFP-exprimierenden Zellen untersucht. Es fand sich eine im Zeitverlauf zunehmende Einwanderung und Differenzierung von GFP-exprimierenden hämatogenen Zellen zu ramifizierten Mikrogliazellen in der grauen und weißen Substanz. Nach vier Monaten stammten bis zu ein Viertel aller regionalen Mikrogliazellen aus dem transplantierten Knochenmark. Nach fokaler cerebraler Ischämie wanderten deutlich mehr GFP-positive Zellen aus dem Blut in das ischämische Areal ein und differenzierten zu ramifizierten Mikrogliazellen. Diese Ergebnisse implizieren einen Weg für den Transfer des humanen Immunodefizienzvirus in das Zentralnervensystem und offerieren einen nichtinvasiven Weg, genetisch manipulierte Zellen in das adulte Hirnparenchym einzuschleusen. / In order to stably label hematogenous cells, bone marrow was transduced with the gene for the green fluorescent protein (GFP) and transplanted into irradiated recipient mice. The GFP- expression in peripheral blood cells of these animals was stable within the examined time frame of four months. Brains of recipient animals were examined for the presence of GFP- expressing cells at two, four, eight and fifteen weeks after bone marrow transplantation. An increasing migration and differentiation of hematogenous GFP-expressing cells into ramified parenchymal microglia within the white and grey matter was found. After four months, up to quarter of regional microglia were bone-marrow derived. Following focal cerebral ischemia, an increased influx of GFP-positive blood-borne cells differentiating into ramified microglia was observed. These results imply a route for the human immunodeficiency virus into the central nervous system, and they offer a noninvasive approach for the transfer of genetically manipulated cells into the adult brain parenchyma. Maus Mikroglia GFP Knochenmarkchimären fokale cerebrale Ischämie Transduktion mouse microglia GFP bone marrow chimera focal cerebral ischemia transduction 610 Medizin 33 Medizin ddc:610
73	Efeito de polímeros e sais na estabilidade térmica da proteína verde fluorescente (GFP) / Effect of polymers and salts in thermal stability of green fluorescent protein (GFP) Letícia Célia de Lencastre Novaes 18 September 2009 (has links) O emprego de aditivos hidrossolúveis como açúcares, tensoativos, sais e polímeros é prática comum na tentativa de se estabilizar proteínas durante aquecimento. Diversos polímeros têm sido utilizados para estabilizar proteínas, sendo seu efeito dependente das características da proteína. Sais podem estabilizar, desestabilizar ou não ter efeito na estabilidade de proteínas; dependendo do tipo, concentração, natureza das interações iônicas e resíduos carregados da proteína. A termoestabilidade da proteína verde fluorescente (GFP) tem sido demonstrada ao calor úmido, à temperaturas elevadas (T ≥ 95°C), à valores de pH alcalinos e a alguns agentes químicos. Sua denaturação térmica é altamente reprodutível e a variação da intensidade de fluorescência pode ser facilmente determinada por espectrofluorimetria. O objetivo deste trabalho foi estudar o comportamento da GFP na presença de diferentes soluções aquosas de polímeros (polietileno glicol, DEAE-Dextrana e ácido poliacrílico) e sais (citrato e fosfato). A partir dos dados obtidos, pode-se concluir que o citrato favoreceu a preservação da estrutura nativa da GFP nas temperaturas estudadas (70 a 95ºC), em concentrações acima de 10% m/m. O ácido poliacrílico também auxiliou na manutenção da estrutura nativa da GFP, porém em menor intensidade, e com concentrações acima de 20% m/m. / The addition of hydrosoluble excipients, such as, sugars, surfactants, salts and polymers is a common practice in the intent of stabilization of proteins during heating. Several polymers have been used to proteins stabilization, being their effect dependent of protein characteristics, however in some cases, it could cause a reduction of stability. Salts can stabilize proteins, or have no influence in their stability, and these behaviors depend on the type, concentration, ionic interaction and charged protein residues. Thermal stability of green protein fluorescent (GFP) have been demonstrated to humid heat, elevated temperatures (T ≥ 95°C), alkaline pH and to some chemical agents. Its thermal denaturation is highly reproducible and the variation of fluorescence intensity can be easily determinate by spectrofluorometry. The objective of this work was study the behavior of GFP in the presence of different aqueous solutions of polymers (polyethylene glycol, DEAE-Dextran and acid polyacrylic) and salts (citrate and phosphate). From the results, it may be concluded that the citrate favored the preservation of native structure of GFP in the temperatures studied (70ºC to 95ºC), in concentrations above 10% m/m. The PAA polymer also favored the GFP thermal stability, but in a minor intensity and in concentrations above 20% m/m. Citrato Estabilidade térmica Fosfato GFP Polímeros Proteínas de fluorescência verde Sais Tecnologia farmacêutica Citrate GFP Green fluorescent proteins Phosphate Polymers Salts Technology pharmaceutical Thermal stability
74	Efeito de polímeros e sais na estabilidade térmica da proteína verde fluorescente (GFP) / Effect of polymers and salts in thermal stability of green fluorescent protein (GFP) Novaes, Letícia Célia de Lencastre 18 September 2009 (has links) O emprego de aditivos hidrossolúveis como açúcares, tensoativos, sais e polímeros é prática comum na tentativa de se estabilizar proteínas durante aquecimento. Diversos polímeros têm sido utilizados para estabilizar proteínas, sendo seu efeito dependente das características da proteína. Sais podem estabilizar, desestabilizar ou não ter efeito na estabilidade de proteínas; dependendo do tipo, concentração, natureza das interações iônicas e resíduos carregados da proteína. A termoestabilidade da proteína verde fluorescente (GFP) tem sido demonstrada ao calor úmido, à temperaturas elevadas (T ≥ 95°C), à valores de pH alcalinos e a alguns agentes químicos. Sua denaturação térmica é altamente reprodutível e a variação da intensidade de fluorescência pode ser facilmente determinada por espectrofluorimetria. O objetivo deste trabalho foi estudar o comportamento da GFP na presença de diferentes soluções aquosas de polímeros (polietileno glicol, DEAE-Dextrana e ácido poliacrílico) e sais (citrato e fosfato). A partir dos dados obtidos, pode-se concluir que o citrato favoreceu a preservação da estrutura nativa da GFP nas temperaturas estudadas (70 a 95ºC), em concentrações acima de 10% m/m. O ácido poliacrílico também auxiliou na manutenção da estrutura nativa da GFP, porém em menor intensidade, e com concentrações acima de 20% m/m. / The addition of hydrosoluble excipients, such as, sugars, surfactants, salts and polymers is a common practice in the intent of stabilization of proteins during heating. Several polymers have been used to proteins stabilization, being their effect dependent of protein characteristics, however in some cases, it could cause a reduction of stability. Salts can stabilize proteins, or have no influence in their stability, and these behaviors depend on the type, concentration, ionic interaction and charged protein residues. Thermal stability of green protein fluorescent (GFP) have been demonstrated to humid heat, elevated temperatures (T ≥ 95°C), alkaline pH and to some chemical agents. Its thermal denaturation is highly reproducible and the variation of fluorescence intensity can be easily determinate by spectrofluorometry. The objective of this work was study the behavior of GFP in the presence of different aqueous solutions of polymers (polyethylene glycol, DEAE-Dextran and acid polyacrylic) and salts (citrate and phosphate). From the results, it may be concluded that the citrate favored the preservation of native structure of GFP in the temperatures studied (70ºC to 95ºC), in concentrations above 10% m/m. The PAA polymer also favored the GFP thermal stability, but in a minor intensity and in concentrations above 20% m/m. Citrate Citrato Estabilidade térmica Fosfato GFP GFP Green fluorescent proteins Phosphate Polímeros Polymers Proteínas de fluorescência verde Sais Salts Technology pharmaceutical Tecnologia farmacêutica Thermal stability
75	Ingénierie d'un outil basé sur une GFP fragmentée pour l'étude des protéines multi-localisées chez les eucaryotes / Engineering a Split-GFP based tool to study multilocalized protein in Eukaryotes Bader, Gaëtan 15 December 2017 (has links) Les aminoacyl-ARNt synthétases catalysent la formation des aminoacyl-ARNt, utilisés lors de la synthèse protéique et peuvent également former des complexes multi-synthétasiques (MSC). Chez S. cerevisiae, le complexe AME associe les glutamyl- et méthionyl-ARNt synthétases à la protéine d’ancrage Arc1 et joue un rôle primordial dans la coordination de l’expression des génomes nucléaire et mitochondrial. Tous les composants de ce MSC sont multi-localisés et assurent des fonctions essentielles dans d’autres compartiments. Pour étudier ces localisations multiples, nous avons élaboré un outil, basé sur la Split-GFP, qui nous permet de visualiser spécifiquement la fraction organellaire d’une protéine multi-localisée. Pour cela, la GFP a été séparée en deux fragments : i) β1-10, restreint à un compartiment subcellulaire et ii) β11, fusionné aux protéines d’intérêts. Cet outil nous a permis d’étudier diverses relocalisations, ainsi que de délimiter des signaux d’import. / Aminoacyl-tRNA synthetases catalyze aminoacyl-tRNA formation, required for protein synthesis but can also associate into multi-synthetase complexes (MSC). In S. cerevisiae, the AME complex contains glutamyl- and methionyl-tRNA synthetases bound to the anchor protein Arc1 and is responsible for the coordination of nuclear and mitochondrial genome expression. The three MSC partners are multi-localized and present simultaneously in several compartments. The detection of the organellar pools of these multilocalized proteins in vivo is difficult, since they are mainly cytosolic. Therefore, we engineered a split-GFP based localization tool that allows us to specifically visualize organellar fractions of multi-localized proteins. To do so, GFP was split into two parts: β1-10, restricted to a subcellular compartment and β11, fused to the protein of interest. This tool allowed us to study relocalization of cytosolic proteins and characterize targeting signals. Aminoacyl-ARNt synthétases S. cerevisiae Split-GFP Localisation subcellulaire Mitochondries Aminoacyl-tRNA synthetases S. cerevisiae Split-GFP Subcellular localization Mitochondria 572.6 572.8
76	Endothel und Regulation der Inflammation Weidmann, Rolf Günter 06 October 2005 (has links) Die durch Lipopolysaccharid (LPS) induzierte frühe Immunantwort ist ein wesentlicher Mechanismus der Infektabwehr durch die angeborene Immunität. Bei starker LPS-Exposition kann es andererseits zur Ausbildung eines septischen Syndroms kommen. Der endothelialen Sekretion von Interleukin-8 (IL-8/CXCL8), das als Chemokin die Migration neutrophiler Granulozyten vermittelt, kommt dabei herausragende Bedeutung zu. Zielsetzung dieser Arbeit war es, die Relevanz der Rho-Proteine RhoA, Rac1 und Cdc42 für die LPS-induzierte intrazelluläre Signaltransduktion mittels Überexpression inaktiver Mutanten dieser Proteine zu untersuchen. Diese Untersuchung wurde erschwert durch die schlechte Transfizierbarkeit der Endothelzelllinie HPMEC-ST1.6R, die nahezu alle Charakteristika primärer Endothelzellen aufweist. Deshalb wurde eine Methode etabliert, die durch Kotransfektion des Grünen Fluoreszenzproteins (GFP) die flusszytometrische Selektion der transfizierten Zellen anhand ihrer GFP-bedingten Fluoreszenz und die Messung der Expression von CXCL8 allein in dieser Population ermöglicht. Damit wurde nachgewiesen, dass die inaktiven Mutanten RhoAN19, Rac1N17 und Cdc42N17 jeweils die LPS-induzierte Expression von CXCL8 vermindern. Die größte Reduktion der CXCL8-Expression um 38 % der Positivkontrolle zeigte sich nach Transfektion der Mutante Rac1N17. Die Zelllinie CHO-3E10 exprimiert einen artifiziellen Reporter unter der Kontrolle eines Fragments aus der Verstärkerregion des Gens für das Endotheliale Leukozyten-Adhäsionsmolekül ELAM-1 (CD62E). Die Transfektion jeder einzelnen der inaktiven Varianten der drei GTP-bindenden Proteine in Zellen der Linie CHO-3E10 reduzierte die Expression des Reporterproteins nach Stimulation mit LPS signifikant. Die stärkste Reduktion der Reporterexpression um 51 % der Positivkontrolle ergab sich unter Rac1N17. Zusammengefasst zeigt die Studie, dass die Überexpression der inaktiven Mutanten RhoAN19, Rac1N17 und Cdc42N17 zu einer Abnahme der endothelialen Expression von CXCL8 führt. Darüberhinaus ergab sich im Vergleich zu den Mutanten RhoAN19 und Cdc42N17 die stärkste Reduktion der CXCL8-Expression in Endothelzellen nach Transfektion der Mutante Rac1N17. / The early immune response induced by Lipopolysaccaride (LPS) is a crucial mechanism in fighting off infections by the innate immunity. On the other side high amounts of LPS can lead to the development of a sepsis. In this process the endothelial secretion of interleukin-8 (IL-8/CXCL8), which causes the migration of neutrophilic granulocytes to the site of infection is highly important. The aim of this study was to analyze the relevance of each of the three Rho-proteins RhoA, Rac1 and Cdc42 for the intracellular signal transduction resulting in CXCL8-expression by means of overexpressing inactive mutants of these proteins. Cells of the human microvascular endothelial cell line HPMEC-ST1.6R show most characteristics of primary endothelial cells and are extremely difficult to transfect. Therefore a method was established, which allowed sorting of successfully transfected cells by cotransfecting a gene encoding for green fluorescence protein (GFP). This method permitted measuring intracellular expression of CXCL8 in the population successfully transfected with plasmids encoding for RhoAN19, Rac1N17 or Cdc42N17 mutants. This experiments demonstrated that the inactive mutants RhoAN19 Rac1N17 or Cdc42N17 each decreased the LPS-induced expression of CXCL8. Quantitative comparision showed the greatest reduction of 38 % in CXCL8-expression due to transfection of the Rac1N17 mutant. The LPS-inducible reporter cell line CHO-3E10 used in this study expresses the human CD25-antigene as an artificial reporter protein under the control of a fragment from the enhancer region of the gene for the human endothelial leukocytic adhesionmolecule ELAM-1 (CD62E). Transfecting each of the inactive mutants RhoAN19, Rac1N17 or Cdc42N17 in CHO-3E10 cells significantly reduced the LPS-induced expression of the reporter protein. The greatest reduction in reporter expression of 51 % resulted from transfection with the Rac1N17 mutant. In conclusion, this study demonstrates that overexpression of nonfunctional GTP-binding proteins RhoAN19, Rac1N17 or Cdc42N17 leads to a decrease in endothelial CXCL8-expression. Moreover, CXCL8-expression in endothelial cells transfected with the Rac1N17 mutant was most efficiently reduced when compared to the other mutants. Endothel Rho-Proteine Lipopolysaccharid Flusszytometrie GFP Endothelium Rho-proteins Lipopolysaccharide Flow Cytometry GFP 610 Medizin 33 Medizin XD 3004 XD 3019 XG 2604 XG 2619 ddc:610
77	Development of transgenic Ambystoma mexicanum (axolotl) to study cell fate during development and regeneration Sobkow, Lidia 18 April 2006 (has links) (PDF) The establishment of transgenesisi in axolotls is crucial for studying development and regeneration, as it would allow for long-term fate tracing as well as gene expression analysis, therefore we were interested in both obtaining animals expresing the transgene with little mosaicism in F0 generation and transgenesis. We demonstrate here that plasmid injection into one cell stage axolotl embryo generates transgenic animals that display germline transmission of a transgene. However, the efficiency of simple plasmid injection is very low, expression of the transgene is mosaic and seems to be promoter dependant. We have tested several methods of transgenesis developed in other systems. First we used Adeno-Associated Viral Terminal Repeats inserted into the injected construct to enhance the expression level of the transgene and reduce mosaicism. However, in the axolotl system we do not observe the enhancement of expression. Moreover, the expression appeared to be transient and disappeared after two months. Further, we tested the effect of the inclusion of ISceI meganuclease in the injections, succesful transgenesis method in the medaka system. It resulted in a higher percentage of F0 animals displaying strong , stable expression throughout the body. This represents the first demonstration in the axolotl of germline transmission of the transgene. Using this technique we have generated a germline transgenic anima expressing GFP ubiquitously in all tissue examined. We have used this anima to study cell fate in the dirsal fin during development. We have discovered a contribution of somite cells to dorsal fin mesenchyme in the axolotl, which was previously assumed to derive solely from neural crest. We have also studied the role of blood during tail regeneration by transplanting the ventral blood-forming region from GFP+ embryos into unlabeled host. During tail regeneration, we do not observe GFP+ cells contributing to muscle or nerve, suggesting that during tail regeneration blood stem cells do not undergo significant plasticity. We are interested in characterization of pluripotency of blastema cells. Previously, it has been shown that neural progenitor cells form the spinal cord can transdifferentiate to muscle and other tissue types in the regenerating tail. To test if blastema cells have the potency of differentiating into a neural tissue , we transplanted GFP+ 4day blastema into an injured spinal cord. Our result shows that blastema cells don't seem to contribute to the regenerating spinal cord. Axolotl GFP Regeneration Transgene GFP axolotl development regeneration transgenic ddc:570 rvk:WX 6400 Axolotl Grün fluoreszierendes Protein Ontogenie Regeneration Transgene Tiere
78	Live Cell STED Microscopy using Genetically Encoded Markers / Lebendzell-STED-Mikroskopie mit genetisch kodierten Markierungen Hein, Birka 02 July 2009 (has links) No description available. 500 Naturwissenschaften allgemein Mathematics and Computer Science STED GFP Fluoreszenz Lebendzell-Mikroskopie STED GFP Fluorescence Live Cell Microscopy 35.10 Physikalische Chemie: Allgemeines
79	Identification of novel components involved in selective and unselective autophagic pathways / Identifizierung neuartiger an selektiver und unselektiver Autophagy beteiligter Komponenten Welter, Evelyn 16 May 2011 (has links) No description available. 570 Biowissenschaften Biologie WF200 WHC 600 macroautophagy PMN mitophagy Atg8 Pgk1-GFP macroautophagy PMN mitophagy Atg8 Pgk1-GFP 35.70 42.13
80	Tagging methods as a tool to investigate histone H3 methylation dynamics in mouse embryonic stem cells Ciotta, Giovanni 20 July 2011 (has links) (PDF) Covalent modification of histones is an important factor in the regulation of the chromatin structure implicated in DNA replication, repair, recombination, and transcription, as well as in RNA processing. In recent years, histone methylation has emerged as one of the key modifications regulating chromatin function. However, the mechanisms involved are complex and not well understood. Histone 3 lysine 4 (H3K4) methylation is deposited by a family of histone H3K4 methyltransferases (HMTs) that share a conserved SET domain. In mammalian cells, six family members have been characterized: Setd1a and Setd1b (the mammalian orthologs of yeast Set1) and four Mixed lineage leukemia (Mll) family HMTs, which share limited similarity with yeast Set1 beyond the SET domain. Several studies demonstrated that the H3K4 methyltransferases exist as multiprotein complexes. To functionally dissect H3K4 methyltransferase complexes, GFP tagging of the core subunit Ash2l and the complex-specific subunits Cxxc1 and Wdr82 (Setd1a/b complexes) Men1 (Mll1/2 complexes), and Ptip (Mll3/Mll4 complexes), was used. The fusion proteins were successfully expressed in mouse embryonic stem cells (ES cells), analyzed by confocal microscopy, Mass Spectrometry (MS) and ChIP-seq. Ptip was the only subunit able to bind mitotic chromatin. Additionally, both Ptip and Wdr82 were found to associate with cell cycle regulators, suggesting a possible role of the two proteins or respective complexes in cell cycle regulation. Mass Spectrometry revealed that Wdr82 and Ptip interact with members of he PAF complex, and ChIP-seq showed that Wdr82, Cxxc1 and Ptip positively modulate pluripotency genes. Thus, Setd1a/b and Mll3/4 complexes might act together in the regulation of embryonic stem cells identity. Protein pull downs identified at least one new Setd1a/b interactor, Bod1l that is orthologous to the yeast protein Sgh1, a component of the Set1C complex. Furthermore, our MS and ChIP-seq data suggested that only Mll2 complex binds to bivalent promoters, wheras Mll2 and Setd1a complexes might function together in a set of promoters. Tag GFP H3K4 methyltransferase ChIP-seq Massenspektrometrie Tag GFP H3K4 methyltransferase ChIP-seq Mass Spectrometry ddc:570 rvk:WE 2000 rvk:VG 9800

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