Global ETD Search

51	Future Farming : Building three scenarios based on farmers' perceptions of a changing world, case study in southern Sweden. Lidbom, Alicia January 2023 (has links) No description available. Jordbruk Södra Sverige Ärtproduktion Framtidens livsmedelsproduktion Agricultural Science Jordbruksvetenskap
52	Physiological effects of conditioned medium and passage number on Spodoptera frugiperda Sf9 serum free cultures Svensson, Ingrid January 2005 (has links) <p>The aim of this study was to better understand the role of conditioned medium (CM) in Spodoptera frugiperda Sf9 insect cell proliferation and recombinant protein production using the baculovirus expression system.</p><p>CM was found to stimulate cell proliferation. Addition of CM and 10 kDa CM filtrate to an Sf9 culture decreased the lagphase and the maximum cell density was reached earlier than for cultures in fresh medium. The positive effect of 10 kDa CM filtrate showed that CM contains at least one small growth promoting factor. The effect was not eliminated by trypsin treatment. Addition of CM or 10 kDa CM filtrate to Sf9 cultures was found to have a negative effect on the recombinant protein production. The effect was thought to be indirect and most probably via the impact of CM on cell physiology. CM was also found to contain proteinase activity. The proteinase was identified as Sf9 cathepsin L. A proform with a molecular mass about 49 kDa and two active forms at about 39 and 22 kDa were found. The role of cathepsin L in Sf9 cultures is not yet clear. However, the knowledge of the presence of this proteinase in CM can be of great value for improving product quality and yield. Further, CM was found to have other properties as well: a concentrated fraction of CM exhibited strong antibacterial activity towards Bacillus megaterium and a weaker activity towards Escherichia coli. B. megaterium lysed rapidly after incubation in the CM fraction.</p><p>Repeated subculturing of Sf9 cells provoked a switch in growth kinetics. After 30-45 passages the cells started to proliferate earlier after inoculation and addition of CM had no longer a growth stimulating effect. However, CM still stimulated growth of a culture with low passage (LP) number (up to 45 passages). High passage cells (HP cells, over 100 passages) displayed a shorter lagphase than LP cells and the culture reached the maximum cell density 24-48 h earlier. Cell cycle analysis showed that the Sf9 cells were transiently synchronised in the G2/M phase 10 h after inoculation, before proliferation was initiated. This synchronisation was more pronounced for HP cells than for LP cells, which correlated to a higher recombinant protein production in baculovirus infected HP cells than in LP cells. Synchronisation of cells in G2/M by yeastolate-limitation before infection with baculoviruses suggested that the degree of synchronisation is connected to the cell density dependent decrease in recombinant protein production of Sf9 cultures.</p> Biotechnology Spodoptera frugiperda Sf9 insect cell cultures conditioned medium cell cycle phase dynamics proteolytic activity antibacterial activity recombinant protein production Bioteknik Bioengineering Bioteknik
53	Produção e atividade antiviral das isoformas da fosfolipase A2 crotoxina B recombinante / Production and antiviral activity of phospholipase A2 crotoxin B recombinant isoforms Russo, Raquel Rinaldi 10 October 2017 (has links) O vírus da dengue (DENV) e o vírus da febre amarela (YFV) (gênero Flavivirus, família Flaviviridae) representam importantes arbovírus causadores de doenças em humanos que afetam as regiões tropicais e sub-tropicais do planeta, somando milhões de infectados anualmente. Embora exista uma vacina contra o YFV, ainda são notificados muitos casos de febre amarela nas regiões endêmicas das Américas e, principalmente, da África. Recentemente, foi licenciada uma vacina contra o DENV, mas seu uso ainda é bastante restrito. Não existem agentes terapêuticos para tratamento da infecção contra nenhum desses vírus. Portanto, estudos para identificação de fármacos para combaterem a infecção pelos DENV e YFV são de suma importância. Nosso grupo descreveu a ação antiviral da fosfolipase A2 crotoxina B (PLA2-CB) da serpente Crotalus durissus terrificus, a qual tem ação diretamente sobre o envelope de DENV e YFV. A meta principal deste trabalho foi a produção das duas isoformas da PLA2-CB (CB1 e CB2) recombinantes e avaliação de suas atividades antivirais, a fim de contribuir com a prospecção de novas drogas antivirais. Para alcançar tais propósitos, as sequências codificadoras das isoformas foram otimizadas para expressão em sistema procarioto, quimicamente sintetizadas e enzimaticamente inseridas no vetor de expressão pGS-21a. Os plasmídeos gerados foram utilizados para transformar células E. coli das cepas BL21(DE3), Origami B(DE3) e ArcticExpress (DE3). As proteínas recombinantes foram expressas juntamente com uma cauda de polihistidina (6xHis) no extremo C-terminal (CB1+6xHis_opt e CB2+6xHis_opt). Ambas as proteínas foram reconhecidas por anticorpos produzidos contra a PLA2-CB in natura em ensaio de Western Blot. Considerando que as proteínas foram expressas de forma insolúvel, a purificação foi realizada em sistema de cromatografia líquida (FPLC), utilizando coluna com resina de afinidade por níquel sob condições desnaturantes, utilizando ureia como agente solubilizador. As proteínas foram renaturadas na própria coluna de níquel (on-column) durante a purificação, utilizando um gradiente decrescente de ureia (6-0M - 120ml - 0,1ml/min) e o detergente CHAPS como agente estabilizador. As proteínas CB1+6xHis_opt e CB2+6xHis_opt em ensaio colorimétrico de hidrólise de fosfatidilcolina apresentaram atividade fosfolipásica, indicando preservação do sítio catalítico. Em ensaio virucida contra o DENV-2, YFV e outros dois vírus envelopados: Vírus Chikungunya (CHIKV) e vírus Zika (ZIKV), as proteínas recombinantes reduziram a formação de placas de lise exibindo índices de seletividade na média de 0,6. As proteínas CB1+6xHis_opt e CB2+6xHis_opt podem vir a ser um importante modelo na prospecção de novas drogas antivirais e como ferramenta no estudo do mecanismo de replicação viral. / Dengue virus (DENV) and yellow fever virus (YFV) (genus Flavivirus, family Flaviviridae) are important arboviruses that cause diseases in humans affecting the tropical and subtropical regions of the planet with millions of infected annually. Although there is a vaccine against YFV, many cases of yellow fever are still reported in the endemic regions of the Americas, and especially in Africa. A vaccine against DENV has recently been licensed, but its use is still quite restricted. There are no therapeutic agents to treat the infection against any of these viruses. Therefore, studies to identify drugs to combat DENV and YFV infection are of extreme importance. Our group described the antiviral action of the phospholipase A2 crotoxin B (PLA2-CB) isolated from Crotalus durissus terrificus, which acts directly on the envelope of DENV and YFV. The aim of this study was to produce the two recombinant PLA2-CB (CB1 and CB2) isoforms and evaluate their antiviral activities in order to contribute to the prospection of new antiviral drugs. To achieve such purposes, the coding sequences of the isoforms were optimized for prokaryotic expression system, chemically synthesized and enzymatically inserted into the pGS-21a vector. The plasmids generated were used to transform E. coli cells from BL21 (DE3), Origami B (DE3) and ArcticExpress (DE3) strains. Recombinant proteins were expressed tagged with a polyhistidine (6xHis) tail at the C-terminus (CB1+6xHis_opt and CB2+6xHis_opt). Both proteins were recognized by antibodies raised against native PLA2-CB in Western blot assay. Considering that the proteins were expressed in insoluble form, purification was performed in liquid chromatography system (FPLC) using nickel resin column under denaturing conditions, using urea as the solubilizing agent. The proteins were renatured on-column during purification procedure using a decreasing gradient of urea (6-0M - 120ml - 0,1ml/min) and CHAPS as a stabilizing agent. CB1+6xHis_opt and CB2+6xHis_opt proteins showed phospholipase activity in a colorimetric assay based on phosphatidylcholine hydrolysis, indicating preservation of the catalytic site. In a virucidal assay against DENV-2, YFV and two other enveloped viruses: Chikungunya virus (CHIKV) and Zika virus (ZIKV), the recombinant proteins reduced the plaques of lysis formation exhibiting selectivity indices at the mean of 0.6. The CB1+6xHis_opt and CB2+6xHis_opt proteins could be important models for the prospection of new antiviral drugs and as tools for the study of the mechanism of viral replication. Antiviral Antiviral Dengue Dengue Febre amarela Fosfolipase A2 Phospholipase A2 Produção recombinante Recombinant protein production Snake venoms Venenos de serpentes Yellow fever
54	Molecular Aspects of Nitrogen Metabolism in Fishes Laberge MacDonald, Tammy 06 August 2009 (has links) Molecular aspects of nitrogen metabolism in vertebrates is an interesting area of physiology and evolution to explore due to the different ways in which animals excrete nitrogenous waste as they transition from an aquatic to a terrestrial lifestyle. Two main products of nitrogen metabolism in fishes are ammonia and urea. Ammonia is produced during protein catabolism and build up of ammonia is toxic. Some aquatic vertebrates convert ammonia into a less toxic compound urea via de novo synthesis through the ornithine-urea cycle (O-UC). Five enzymes are involved in the O-UC: carbamoyl phosphate synthetase (CPS), ornithine carbamoyl transferase (OCT), argininosuccinate synthetase (ASS), argininosuccinate lyase (ASL), and arginase (ARG). An accessory enzyme, glutamine synthetase (GS) also participates in the "fish-type" O-UC. Teleosts excrete ammonia passively over their gills into the aquatic environment. The teleost, Opsanus beta, has been shown to increase urea production after 48 hours of crowding. This thesis explored how crowding stress affected nitrogen metabolite levels of ammonia and urea and O-UC gene expression and enzyme activity in O. beta. Lungfishes while in an aquatic environment avoid ammonia toxicity by releasing excess ammonia across their gills, but when stranded on land they produce urea through the O-UC. Urea production via the O-UC has a metabolic cost of at least four ATP molecules. This thesis explored the response of a lungfish, Protopterus annectens, to six days of aerial exposure and re-immersion conditions by measuring concentrations of O-UC mRNA expression and enzyme activity and nitrogen metabolites ammonia and urea. CPS acts as the entry point to the O-UC and based on enzymatic studies, most aquatic vertebrates utilize one isoform of this enzyme (CPSIII) while terrestrial vertebrates utilize a different isoform of this enzyme (CPSI). Lungfishes are a particularly interesting group of air-breathing fishes, not only because of their link to the origins of tetrapods, but also because CPS I may have originated within this group. Both CPS III and CPS I have been enzymatically described within this group. This thesis uses phylogenetics to investigate how CPS nucleotide sequences in lungfishes evolved compared to other vertebrates.
55	Engineering membrane proteins for production and topology Toddo, Stephen January 2015 (has links) The genomes of diverse organisms are predicted to contain 20 – 30% membrane protein encoding genes and more than half of all therapeutics target membrane proteins. However, only 2% of crystal structures deposited in the protein data bank represent integral membrane proteins. This reflects the difficulties in studying them using standard biochemical and crystallographic methods. The first problem frequently encountered when investigating membrane proteins is their low natural abundance, which is insufficient for biochemical and structural studies. The aim of my thesis was to provide a simple method to improve the production of recombinant proteins. One of the most commonly used methods to increase protein yields is codon optimization of the entire coding sequence. However, our data show that subtle synonymous codon substitutions in the 5’ region can be more efficient. This is consistent with the view that protein yields under normal conditions are more dependent on translation initiation than elongation. mRNA secondary structures around the 5’ region are in large part responsible for this effect although rare codons, as well as other factors, also contribute. We developed a PCR based method to optimize the 5’ region for increased protein production in Escherichia coli. For those proteins produced in sufficient quantities several additional hurdles remain before high quality crystals can be obtained. A second aim of my thesis work was to provide a simple method for topology mapping membrane proteins. A topology map provides information about the orientation of transmembrane regions and the location of protein domains in relation to the membrane, which can give information on structure-function relationships. To this end we explored the split-GFP system in which GFP is split between the 10th and 11th β-strands. This results in one large and one small fragment, both of which are non-fluorescent but can re-anneal and regain fluorescence if localized to the same cellular compartment. Fusing the 11th β-strand to the termini of a protein of interest and expressing it, followed by expression of the detector fragment in the cytosol, allows determination of the topology of inner membrane proteins. Using this strategy the topology of three model proteins was correctly determined. We believe that this system could be used to predict the topology of a large number of additional proteins, especially single-spanning inner membrane proteins in E. coli. The methods for efficient protein production and topology mapping engineered during my thesis work are simple and cost-efficient and may be very valuable in future studies of membrane proteins. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 2: Manuscript.</p> Membrane protein Over-expression Protein production Codon optimization Escherichia coli AraH NarK mRNA secondary structure coding sequence ribosome binding site RBS topology split-GFP
56	High-throughput protein analysis using mass spectrometry-based methods Boström, Tove January 2014 (has links) In the field of proteomics, proteins are analyzed and quantified in high numbers. Protein analysis is of great importance and can for example generate information regarding protein function and involvement in disease. Different strategies for protein analysis and quan- tification have emerged, suitable for different applications. The focus of this thesis lies on protein identification and quantification using different setups and method development has a central role in all included papers. The presented research can be divided into three parts. Part one describes the develop- ment of two different screening methods for His6-tagged recombinant protein fragments. In the first investigation, proteins were purified using immobilized metal ion affinity chro- matography in a 96-well plate format and in the second investigation this was downscaled to nanoliter-scale using the miniaturized sample preparation platform, integrated selective enrichment target (ISET). The aim of these investigations was to develop methods that could work as an initial screening step in high-throughput protein production projects, such as the Human Protein Atlas (HPA) project, for more efficient protein production and purification. In the second part of the thesis, focus lies on quantitative proteomics. Protein fragments were produced with incorporated heavy isotope-labeled amino acids and used as internal standards in absolute protein quantification mass spectrometry experiments. The aim of this investigation was to compare the protein levels obtained using quanti- tative mass spectrometry to mRNA levels obtained by RNA sequencing. Expression of 32 different proteins was studied in six different cell lines and a clear correlation between protein and mRNA levels was observed when analyzing genes on an individual level. The third part of the thesis involves the antibodies generated within the HPA project. In the first investigation a method for validation of antibodies using protein immunoenrichment coupled to mass spectrometry was described. In a second study, a method was developed where antibodies were used to capture tryptic peptides from a digested cell lysate with spiked in heavy isotope-labeled protein fragments, enabling quantification of 20 proteins in a multiplex format. Taken together, the presented research has expanded the pro- teomics toolbox in terms of available methods for protein analysis and quantification in a high-throughput format. / <p>QC 20141022</p> Proteomics mass spectrometry affinity proteomics immunoenrichment immunoprecipitation IMAC screening protein production protein purification ISET quantification SILAC stable isotope standard antibody validation
57	Biosenseurs reposant sur l'AMPK et le FRET pour l'analyse du métabolisme énergétique : AMPFret / AMPK- and FRET- based biosensors for energy metabolism : AMPfret Pelosse, Martin 19 June 2015 (has links) La protéine kinase activée par AMP (AMPK) est un senseur ubiquitaire du statut énergétique de la cellule eucaryote. Elle est exprimée sous la forme d'un complexe hétérotrimèrique comprenant les sous unités catalytique (α) et régulatrices (β et γ). Ce large complexe protéique (130kDa), fonctionne comme un hub central de la signalisation cellulaire, régulateur du métabolisme énergétique et au-delà. La (dé)régulation de l'AMPK est impliquée dans de nombreuses pathologies et l'AMPK apparait comme une cible de choix pour développer de nouveaux médicaments contre le diabète de type 2. Une fois activée, l'AMPK va restaurer l'homéostasie énergétique en diminuant le métabolisme demandeur d'énergie (anabolisme) et en stimulant le métabolisme produisant le l'énergie (catabolisme). In vivo, l'AMPK est activée par des mécanismes multiples et complexes permettant la fine régulation de son activité lors de différentes situations de stress métaboliques. Premièrement, l'activité de l'AMPK est modulée de manière systémique par phosphorylation et déphosphorylation de la sous unité α (par des kinases et phosphatases en amont respectivement). De plus, l'attachement d'AMP et d'ADP à la sous unité γ augmente la phosphorylation de l'AMPK. Deuxièmement, l'AMPK est activée de manière allostérique par l'AMP qui se lie à sous unité γ lors de chutes du ratio ATP/AMP. Tous ces mécanismes requièrent une communication entre les sous unités α et γ, mais un modèle consensus complet de l'activation de l'AMPK est toujours manquant. Se basant sur différentes études structurales, d'autres et nous-mêmes avons proposé un changement de conformation induit par AMP au sein de l'hétérotrimère AMPK. Afin de mieux élucider ce mécanisme, nous avons tiré profit de ces changements conformationels pour imaginer et créer un hétérotrimère d'AMPK permettant de suivre directement et en temps réel l'état de conformation de l'AMPK par FRET. Une limite importante lors du développement de complexes multiprotéiques est l'augmentation exponentielle de la quantité de travail liée à la modification et la combinaison de nombreux gènes hétérologues lors du remaniement de ces complexes protéiques et de leurs productions. Nous avons utilisé la technologie ACEMBL, qui exploite des techniques de recombinaisons homologues, pour faciliter la révision rapide et itérative de la production et de l'analyse fonctionnelle, après ingénierie, de complexes multi protéiques. Le senseur fluorescent génétiquement codé ainsi crée, et nommé AMPfret, a la propriété de rapporter les changements de conformation induits par les nucléotides ayant lieu au sein de l'AMPK. De plus, les changements de signal FRET corrèlent avec l'activation allostérique de l'AMPK. Le senseur répond à de faible concentrations en AMP (micromolaire) et a démontré la capacité exclusive qu'a l'ATP, et non l'ATP-Mg, à concurrencer l'AMP. De plus, son utilisation a permis une meilleure compréhension du rôle des sites CBS lors de l'activation allostérique. AMPfret peut aussi être considérer comme un outil de choix pour le criblage de molécules ciblant l'AMPK, et pour le monitoring de l'état énergétique intracellulaire. / AMP-activated protein kinase (AMPK) is a ubiquitous sensor of cellular energy and nutrient status in eukaryotic cells. It is expressed as heterotrimeric complexes comprising catalytic (α) and regulatory (β and γ) subunits. This large protein complex (130kDa), conserved from yeast to plants and mammals, functions as a central signaling hub and master regulator of energy metabolism and beyond. (Dys)regulation of AMPK signaling has been implicated in various pathologies. In particular, AMPK emerged as a suitable target to develop novel drugs for type II diabetes. Once activated AMPK will attempt to restore the energy homeostasis by down-regulating energy demanding pathways (anabolism) and up-regulating the energy producing ones (catabolism). AMPK is activated in vivo by multiple, complex mechanisms allowing fine tuning of AMPK activity in different situations of metabolic stress. First, AMPK activity is systemically modulated via activating phosphorylation at the α-subunit (by upstream kinases) and inactivating dephosphorylation (by upstream phosphatases). In addition, AMP and ADP binding to the γ-subunit increase AMPK phosphorylation. Second, AMPK is allosterically activated by AMP binding to the γ-subunit when the ATP/AMP ratio is falling. All these mechanisms require close communication between the γ- and α subunits, but a complete consensus model for AMPK activation is still lacking. We and others have proposed an AMP-induced conformational switch within the full-length heterotrimeric AMPK complex based on different, complementary structural studies. To further elucidate this mechanism, we have profited from these structural rearrangements to imagine and engineer an AMPK complex that allows a direct, real-time readout of the AMPK conformational state by fluorescence resonance energy transfer (FRET). A definite bottleneck in engineering multiprotein complexes is the exponential increase in work-load if several heterologous genes need to be altered, engineered and combined for revised protein complex production experiments. We used the ACEMBL technology which harnesses site-specific and homologous recombination techniques in tandem to facilitate rapid, iterative revision of multi-protein complex expressions after engineering and functional analysis of multiprotein complex. The resulting genetically encoded fluorescent biosensor, named AMPfret, can report conformational changes within the AMPK heterotrimer induced by nucleotide binding and the monitored FRET correlates with AMPK allosteric activation. The sensor responds to low micromolar concentrations of AMP, shows the exclusive ability of ATP, but not Mg-ATP, to compete with AMP, and allows insight into the role of CBS domains for allosteric AMPK activation. It may also be a tool of choice for AMPK targeted drug screening, and reporting the intracellular energy state. Proteine kinase activée par AMP Biosenseur FRET Métabolisme énergétique Clonage haut debit AMP activated protein kinase Biosensors FRET Energetic metabolism High throughoutput protein production 570
58	Physiological effects of conditioned medium and passage number on Spodoptera frugiperda Sf9 serum free cultures Svensson, Ingrid January 2005 (has links) The aim of this study was to better understand the role of conditioned medium (CM) in Spodoptera frugiperda Sf9 insect cell proliferation and recombinant protein production using the baculovirus expression system. CM was found to stimulate cell proliferation. Addition of CM and 10 kDa CM filtrate to an Sf9 culture decreased the lagphase and the maximum cell density was reached earlier than for cultures in fresh medium. The positive effect of 10 kDa CM filtrate showed that CM contains at least one small growth promoting factor. The effect was not eliminated by trypsin treatment. Addition of CM or 10 kDa CM filtrate to Sf9 cultures was found to have a negative effect on the recombinant protein production. The effect was thought to be indirect and most probably via the impact of CM on cell physiology. CM was also found to contain proteinase activity. The proteinase was identified as Sf9 cathepsin L. A proform with a molecular mass about 49 kDa and two active forms at about 39 and 22 kDa were found. The role of cathepsin L in Sf9 cultures is not yet clear. However, the knowledge of the presence of this proteinase in CM can be of great value for improving product quality and yield. Further, CM was found to have other properties as well: a concentrated fraction of CM exhibited strong antibacterial activity towards Bacillus megaterium and a weaker activity towards Escherichia coli. B. megaterium lysed rapidly after incubation in the CM fraction. Repeated subculturing of Sf9 cells provoked a switch in growth kinetics. After 30-45 passages the cells started to proliferate earlier after inoculation and addition of CM had no longer a growth stimulating effect. However, CM still stimulated growth of a culture with low passage (LP) number (up to 45 passages). High passage cells (HP cells, over 100 passages) displayed a shorter lagphase than LP cells and the culture reached the maximum cell density 24-48 h earlier. Cell cycle analysis showed that the Sf9 cells were transiently synchronised in the G2/M phase 10 h after inoculation, before proliferation was initiated. This synchronisation was more pronounced for HP cells than for LP cells, which correlated to a higher recombinant protein production in baculovirus infected HP cells than in LP cells. Synchronisation of cells in G2/M by yeastolate-limitation before infection with baculoviruses suggested that the degree of synchronisation is connected to the cell density dependent decrease in recombinant protein production of Sf9 cultures. / QC 20101222 Biotechnology Spodoptera frugiperda Sf9 insect cell cultures conditioned medium cell cycle phase dynamics proteolytic activity antibacterial activity recombinant protein production Bioteknik Industrial Biotechnology Industriell bioteknik
59	Méthodes de production et étude électrophysiologique de canaux ioniques : application à la pannexine1 humaine et au canal mécanosensible bactérien MscL / Production methods and electrophysiological study of ion channels : application to the human pannexine 1 and to the bacterial mechanosensitive channel MscL. Assal, Reda 14 December 2011 (has links) La production hétérologue des protéines membranaires reste difficile, peut-être parce que l’insertion dans la membrane de la cellule hôte constitue une étape limitante de la production. Afin de tourner cette difficulté, deux modes de synthèse ont été envisagés: la synthèse de protéines dans un système a-cellulaire, en l’absence de membrane mais en présence de détergent, ou l’adressage forcé de la protéine vers les corps d’inclusion dans le cas d’une expression plus classique en bactérie entière. La réalisation des deux stratégies repose sur l’utilisation de protéines de fusion possédant une séquence d’entraînement en amont du gène d’intérêt, soit qu’elles améliorent la traduction du transcrit en limitant le repliement spatial de ce dernier, soit qu’elles favorisent la production de la protéine d’intérêt en corps d’inclusion. La porine OmpX et le peptide T7 ont été choisis en cas d’expression dans les systèmes bactériens. La protéine SUMO est utilisée pour la production dans un lysat eucaryote. Les différentes approches ont été testées sur la production de la pannexine1 humaine (Px1).Si les séquences d’entraînement OmpX et le peptide T7 sont correctement produites in vitro, aucune des deux, en revanche, ne favorise la production de la Px1. Seul l’entraîneur SUMO est efficace. En effet, nous avons observé que cette protéine augmente la production de la Px1 dans un lysat eucaryote de germe de blé. Par ailleurs OmpX, connue pour être largement produite in vivo dans les corps d’inclusion, n’entraîne pas la localisation de la Px1 dans ces structures. Contre toute attente, l’étiquette T7 dirige la Px1 dans les corps d’inclusion. L’étude électrophysiologique de la Px1 a donc été effectuée à partir de la protéine produite in vivo (T7his-Px1) après renaturation, ou produite sous forme soluble in vitro (his6-Px1) dans le lysat eucaryote. Dans le cas de la protéine T7his-Px1 renaturée, une activité canal qui rappelle celle qui est observée après expression dans l’ovocyte de Xénope, a été détectée en patch-clamp, mais dans trois cas seulement. Dans le cas de la protéine his6-Px1, aucune activité canal n’est clairement détectée. Dans une deuxième partie de ce travail on examine le rôle de la boucle périplasmique dans la sensibilité à la pression du MscL, un canal mécanosensible bactérien devenu un système modèle dans l’étude de la mécanosensibilité. Presque toutes les études fonctionnelles sur ce canal ont été réalisées sur le canal de E.coli, alors que la structure a été obtenue à partir de l’homologue de M. tuberculosis. Une étude fonctionnelle a montré que le MscL de M. tuberculosis est difficile à ouvrir : son ouverture requiert l’application d’une pression double de celle qui est nécessaire chez E.coli. Les deux homologues diffèrent principalement par la longueur de leur unique boucle périplasmique. De manière à examiner le rôle de la boucle, on a comparé l’activité du canal MscL de E.coli, celle du canal de M. tuberculosis et celle d’une protéine chimère constituée de la protéine de M. tuberculosis dans laquelle la boucle a été changée pour celle de la protéine de E.coli. De manière inattendue, nous avons constaté que les canaux de E.coli et de M. tuberculosis ont la même sensibilité à la pression. La protéine chimère n’avait pas d’activité canal. Si ce travail ne permet pas de conclure quant au rôle de la boucle, il montre sans ambigüité que contrairement à ce qui a été rapporté les canaux MscL de E.coli et de M. tuberculosis ne diffèrent pas sensiblement sur le plan fonctionnel / The production of heterologous membrane protein is notoriously difficult; this might be due to the fact that insertion of the protein in the membrane host is a limiting step. To by-pass this difficulty, two modes of synthesis were tested: 1) production in a cell-free system devoid of biological membrane but supplemented with detergent or liposomes, 2) production in bacteria, with targeting of the membrane protein to inclusion bodies. Both strategies were tested for the production of the human pannexin 1 channel (Px1). The gene coding the protein was fused with an “enhancer” sequence resulting in the addition of a peptide or short protein at the N terminus of the protein of interest. This enhancer sequence which is well produced in vitro or in vivo is supposed to facilitate the translation of the protein of interest. Three enhancer sequences were chosen: 1) the small porin OmpX of E. coli, which, in addition, should target the protein to inclusion bodies when the protein is expressed in bacteria 2) a peptide of phage T7 for expression in E.coli lysate or E.coli cells 3) the small protein SUMO for production in a wheat germ cell-free system. In a bacterial cell-free system, neither OmpX nor T7 promoted Px1 production. Px1 is only produced when the SUMO enhancer sequence is used in the wheat germ system. In bacteria, OmpX, known to form inclusions bodies did not promote the targeting of the fusion protein to inclusion bodies. Unexpectedly, the peptide T7 was able to do it.Px1 obtained from inclusion bodies (T7his-Px1) was renatured and reconstituted in liposomes. Similarly his6-Px1 produced in wheat germ system was reconstituted in liposomes. Both preparations were used for electrophysiological studies (patch-clamp and planar bilayers). With the refolded T7his-Px1, channel activity reminiscent of that observed with Px1 expressed in Xenope oocyte (Bao et al., 2004) could be detected, but only in three cases. In the case of his6-Px1, no clear channel activity could be observed. The second part of this work deals with the involvement of the periplasmic loop of the bacterial mechanosensitive channel MscL in its sensitivity to pressure. Mscl has become a model system for the investigation of mechanosensisity. Nearly all functional studies have been performed on MscL from E.coli while the structure of the protein has been obtained from the Mycobacterium tuberculosis homologue. In one functional study it was shown that MscL from M. tuberculosis is extremely difficult to open, gating at twice the pressure needed for E.coli MscL The periplasmic loop is the most variable sequence between the two homologues, being longer in E.coli than in M. tuberculosis. In order to assess the role of the periplamic loop in the sensitivity to pressure, we compared the activity of the E.coli and M. tuberculosis MscL and of a chimeric protein made of the M. tuberculosis protein in which the periplasmic loop has been exchanged for that of the E. coli channel. Unexpectedly, M. tuberculosis and E .coli MscL were observed to gate at a similar applied pressure. The chimeric protein had no functional activity. In conclusion, this study does not allow any conclusion as to the role of the loop in the sensitivity to pressure, but it shows clearly that, in contrast to the results of a previous study, there is no functional difference between E. coli and M. tuberculosis MscL. Protéines membranaires Synthèse acellulaire Corps d'inclusion Séquences d'entrainement Peptide T7 Porine OmpX Canaux ioniques Canaux mécanosensibles MscL Pannexine Electrophysiologie Patch-clamp BLM Membrane protein production Cell-free system Inclusion bodies Ion channel Mechanosensitive channel MscL Pannexin Electrophysiology Patch-clamp BLM
60	Produção de proteína LOPAP recombinante (protease ativadora de protrombina da lagarta Lonomia obliqua), purificação, avaliação de estabilidade e estudos estruturais. / Production of recombinant protein LOPAP (Lonomia obliqua caterpillar Prothrombin Activator Protease), purification, stability evaluation and structural studies. Fernandes, Sergio 14 November 2014 (has links) LOPAP, proteína isolada da toxina de lagartas Lonomia obliqua, possui ação ativadora de protrombina, efeito pró-coagulante e ação citoprotetora em células do endotélio humano, em cultura. Tem cadeia única com 181 resíduos de aminoácidos e 21 kDa. Sua estrutura terciária é formada por oito folhas-b fechadas em uma extremidade, mantidas juntas por pontes de hidrogênio, em formato de barril. Está classificada como pertencente ao grupo das Lipocalinas (proteínas de transporte). Neste trabalho estudou-se o LOPAP, que foi produzido recombinante em cultivo de Pichia pastoris em biorreator e purificado. Avaliou-se sua estabilidade quanto às atividades enzimática e citoprotetora, e sua estrutura secundária. Não foi detectada ativação de protrombina para o r-LOPAP obtido, mas foi observada ação citoprotetora. Considerando estes resultados e a análise de sua estrutura secundária por dicroísmo circular, concluiu-se que a proteína foi expressa com tamanho e sequência corretos, mas sem uma estrutura terciária correta, o que é determinante para a atividade enzimática. / LOPAP, a protein isolated from the toxin of Lonomia obliqua caterpillars, has prothrombin activation action, procoagulant effect and cytoprotection action in human endothelium cells culture. It has only chain with 181 amino acid residues and 21 kDa of size. Its tertiary structure is made by eight b-sheets closed at one end, hold together by hydrogen bonds, barrel-shaped. It is classified as belonging to the Lipocalin group (proteins of transport). This work studied the LOPAP, which was produced recombinant in Pichia pastoris culture in bioreactor, was purified, and it was evaluated its stability related to enzymatic and cytoprotection activities, and its secondary structure. It was not detected prothrombin activation for the r-LOPAP obtained, but it was observed a cytoprotective effect. Regarding these results and the analysis of its secondary structure, by circular dichroism, it was concluded that the protein was expressed with correct size and sequence, but without a correct tertiary structure, which is determinant for the enzymatic activity. Lonomia obliqua Lonomia obliqua Pichia pastoris Pichia pastoris Ativador de protrombina Atividade citoprotetora Cytoprotection activity Efeito pró-coagulante Lipocalin Lipocalina LOPAP LOPAP Pro-coagulant effect Produção de proteína recombinante Prothrombin activator Recombinant protein production

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