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Showing 231 to 240 of 246 (0.047 seconds)| 231 |
Functional studies of a membrane-anchored cellulase from poplarJonsson Rudsander, Ulla January 2007 (has links)
Cellulose in particular and wood in general are valuable biomaterials for humanity, and cellulose is now also in the spotlight as a starting material for the production of biofuel. Understanding the processes of wood formation and cellulose biosynthesis could therefore be rewarding, and genomics and proteomics approaches have been initiated to learn more about wood biology. For example, the genome of the tree Populus trichocarpa has been completed during 2006. A single-gene approach then has to follow, to elucidate specific patterns and enzymatic details. This thesis depicts how a gene encoding a membrane-anchored cellulase was isolated from Populus tremula x tremuloides Mich, how the corresponding protein was expressed in heterologous hosts, purified and characterized by substrate analysis using different techniques. The in vivo function and modularity of the membrane-anchored cellulase was also addressed using overexpression and complementation analysis in Arabidopsis thaliana. Among 9 genes found in the Populus EST database, encoding enzymes from glycosyl hydrolase family 9, two were expressed in the cambial tissue, and the membrane-anchored cellulase, PttCel9A1, was the most abundant transcript. PttCel9A1 was expressed in Pichia pastoris, and purified by affinity chromatography and ion exchange chromatography. The low yield of recombinant protein from shake flask experiments was improved by scaling up in the fermentor. PttCel9A1 was however highly heterogenous, both mannosylated and phosphorylated, which made the protein unsuitable for crystallization experiments and 3D X-ray structure determination. Instead, a homology model using a well-characterized, homologous bacterial enzyme was built. From the homology model, interesting point mutations in the active site cleft that would highlight the functional differences of the two proteins could be identified. The real-time cleavage patterns of cello-oligosaccharides by mutant bacterial enzymes, the wildtype bacterial enzyme and PttCel9A1 were studied by 1H NMR spectroscopy, and compared with results from HPAEC-PAD analysis. The inverting stereochemistry for the hydrolysis reaction of the membrane-anchored poplar cellulase was also determined by 1H NMR spectroscopy, and it was concluded that transglycosylation in vivo is not a possible scenario. The preferred in vitro polymeric substrates for PttCel9A1 were shown to be long, low-substituted cellulose derivatives, and the endo-1,4--glucanase activity was not extended to branched or mixed linkage substrates to detectable levels. This result indicates an in vivo function in the hydrolysis of “amorphous” regions of cellulose, either during polymerization or crystallization of cellulose. In addition, overexpressing PttCel9A1 in A. thaliana, demonstrated a correlation with decreased crystallinity of cellulose. The significance of the different putative modules of PttCel9A1 was investigated by the construction of hybrid proteins, that were introduced into a knock-out mutant of A. thaliana, and the potential complementation of the phenotype was examined. A type B plant cellulase catalytic domain could not substitute for a type A plant cellulase catalytic domain, although localization and interaction motifs were added to the N- and C-terminus. / QC 20100802
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Heterologous expression, characterization and applications of carbohydrate active enzymes and binding modulesKallas, Åsa January 2006 (has links)
Wood and wood products are of great economical and environmental importance, both in Sweden and globally. Biotechnology can be used both for achieving raw material of improved quality and for industrial processes such as biobleaching. Despite the enormous amount of carbon that is fixed as wood, the knowledge about the enzymes involved in the biosynthesis, re-organization and degradation of plant cell walls is relatively limited. In order to exploit enzymes more efficiently or to develop new biotechnological processes, it is crucial to gain a better understanding of the function and mechanism of the enzymes. This work has aimed to increase the knowledge about some of the enzymes putatively involved in the wood forming processes in Populus. Xyloglucan endotransglycosylases and a putative xylanase represent transglycosylating and hydrolytic enzymes, respectively. Carbohydrate binding modules represent non-catalytic modules, which bind to the substrate. Among 24 genes encoding for putative xyloglucan endotransglycosylases or xyloglucan endohydrolases that were identified in the Populus EST database, two were chosen for further studies (PttXTH16-34 and PttXTH16-35). The corresponding proteins, PttXET16-34 and PttXET16-35, were expressed in P. pastoris, purified and biochemically characterized. The importance of the N-glycans was investigated by comparing the recombinant wild-type proteins with their deglycosylated counterparts. In order to obtain the large amounts of PttXET16-34 that were needed for crystallization and development of biotechnological applications, the conditions for the large-scale production of PttXET16-34 in a fermenter were optimized. In microorganisms, endo-(1,4)-β-xylanases are important members of the xylan degrading machinery. These enzymes are also present in plants where they might fulfill a similar, but probably more restrictive function. One putative endo-(1,4)-β-xylanase, denoted PttXYN10A, was identified in the hybrid aspen EST library. Sequence analysis shows that this protein contains three putative carbohydrate-binding modules (CBM) from family 22 in addition to the catalytic module from GH10. Heterologous expression and reverse genetics were applied in order to elucidate the function of the catalytic module as well as the binding modules of PttXYN10A. Just as in microorganisms, some of the carbohydrate active enzymes from plants have one or more CBM attached to the catalytic module. So far, a very limited number of plant CBMs has been biochemically characterized. A detailed bio-informatic analysis of the CBM family 43 revealed interesting modularity patterns. In addition, one CBM43 (CBM43PttGH17_84) from a putative Populus b-(1,3)-glucanase was expressed in E. coli and shown to bind to laminarin (β-(1,3)-glucan), mixed-linked β-(1,3)(1,4)-glucans and crystalline cellulose. Due to their high specificity for different carbohydrates, CBMs can be used as probes for the analysis of plant materials. Generally, they are more specific than both staining techniques and carbohydrate-binding antibodies. We have used cellulose- and mannan binding modules from microorganisms as tools for the analysis of intact fibers as well as processed pulps. / QC 20100903
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Étude de la perméabilité intestinale des médicaments par la reconstitution du transporteur BCRP/ABCG2 dans des protéoliposomesAkik, Wided 08 1900 (has links)
No description available.
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Mise en place d’un nouveau test de perméabilité membranaire à l’aide de la glycoprotéine-P reconstituée dans des protéoliposomesFlandrin, Aurore 08 1900 (has links)
Les membranes cellulaires jouent un rôle important dans l’absorption des médicaments et la distribution de ceux-ci dans le corps humain. Elles contiennent différents transporteurs membranaires qui sont responsables des profils pharmacocinétiques, d’innocuité et d’efficacité des xénobiotiques. Lors du développement d’un médicament, il s’avère donc indispensable, de prédire l’interaction des nouveaux composés avec les transporteurs présents dans l’organisme. Le but du projet de recherche est de créer un nouvel outil pour étudier le comportement de la glycoprotéine-P (P-gp), un transporteur membranaire responsable du rejet de nombreux composés, sur différents médicaments. Pour cela, un modèle non cellulaire est développé en utilisant des protéoliposomes : des liposomes dans lesquels des transporteurs sont incorporés.
La méthodologie consiste tout d’abord à produire, extraire et purifier la protéine d’intérêt à partir de deux systèmes d’expression : MDCK-MDR1 (cellules de chien transfectées avec le gène humain MDR1) et Pichia pastoris (levures) fin de déterminer les avantages et les limites de ces deux types cellulaires. Différentes méthodes de reconstitution dans des protéoliposomes ont ensuite été testées avec la P-gp obtenue. Puis, l’activité ATPasique de la P-gp reconstituée a été évaluée en présence de différents substrats.
Les protocoles de culture cellulaire, d’extraction et de purification des deux systèmes d’expression ont été implémentés avec succès au sein du laboratoire. Les résultats montrent que les rendements obtenus sont supérieurs avec les levures qu’avec les cellules de mammifère. En outre, Pichia pastoris offre les avantages d’être facile et rapide à cultiver et peu couteux. Les premiers résultats d’activité ATPasique obtenus avec la P-gp reconstituée en protéoliposomes étaient prometteurs mais n’ont pas été reproduits en raison de la dégradation de la protéine membranaire. Les prochaines études du projet porteront sur un autre transporteur membranaire de la famille ABC, BCRP, une protéine de plus petite taille qui devrait montrer une plus grande stabilité pour mener à bien les tests. / Cellular membranes play an important role in the absorption and distribution of drugs in the human body. They contain different membrane transporters, which are responsible for the pharmacokinetic properties of drugs, as well as the safety and efficiency of their diffusion. When developing a new drug, it is thus of utmost importance to study the way that it will interact with the transporters present within the body. The aim of this study was to evaluate a new tool for measuring permeability in order to understand the function and mecanisms of P-glycoprotein (P-gp). P-gp is a transporter that is responsible for the rejection of many different compounds found in various drugs. This study thus seeks to use proteoliposomes to develop non-cellular models of membrane permeability including efflux and uptake transporters. This novel model of permeability will be utilized to study the underlying mechanisms of membrane permeability to xenobiotics.
The human P-gp was produced, extracted and purified using two different expression systems: MDCK-MDR1 cells (Madin-Darby canine kidney cells transfected with the human MDR1 gene) and Pichia pastoris. Both expression systems were studied in order to compare the strengths and weaknesses of each system. We then tested different methods of reconstituting the P-gp into protéoliposomes. Finally, we measured the level of ATPase activity using different substrates.
The protocols of cell culture, extraction and purification of both expression systems were accomplished in a laboratory during this study. These results demonstrated that expressing P-gp using yeast was more effective than that of mammalian cells. Furthermore, working with Pichia pastoris offers multiple advantages: expressing P-gp was easier, faster and cheaper than working with mammalian cells. The first measurements of ATPase activity using reconstituted P-gp proteoliposomes were promising, however they proved difficult to reproduce due to the possible degradation of the membrane protein.Further studies in this project will look to evaluate another ABC membrane transporter, BCRP. This smaller protein should prove to be more stable than P-gp, facilitating experimentation.
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Interval and Possibilistic Methods for Constraint-Based Metabolic ModelsLlaneras Estrada, Francisco 23 March 2011 (has links)
This thesis is devoted to the study and application of constraint-based metabolic models. The objective was to find simple ways to handle the difficulties that arise in practice due to uncertainty (knowledge is incomplete, there is a lack of measurable variables, and those available are imprecise). With this purpose, tools have been developed to model, analyse, estimate and predict the metabolic behaviour of cells.
The document is structured in three parts. First, related literature is revised and summarised. This results in a unified perspective of several methodologies that use constraint-based representations of the cell metabolism. Three outstanding methods are discussed in detail, network-based pathways analysis (NPA), metabolic flux analysis (MFA), and flux balance analysis (FBA). Four types of metabolic pathways are also compared to clarify the subtle differences among them.
The second part is devoted to interval methods for constraint-based models. The first contribution is an interval approach to traditional MFA, particularly useful to estimate the metabolic fluxes under data scarcity (FS-MFA). These estimates provide insight on the internal state of cells, which determines the behaviour they exhibit at given conditions. The second contribution is a procedure for monitoring the metabolic fluxes during a cultivation process that uses FS-MFA to handle uncertainty.
The third part of the document addresses the use of possibility theory. The main contribution is a possibilistic framework to (a) evaluate model and measurements consistency, and (b) perform flux estimations (Poss-MFA). It combines flexibility on the assumptions and computational efficiency. Poss-MFA is also applied to monitoring fluxes and metabolite concentrations during a cultivation, information of great use for fault-detection and control of industrial processes. Afterwards, the FBA problem is addressed. / Llaneras Estrada, F. (2011). Interval and Possibilistic Methods for Constraint-Based Metabolic Models [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/10528 / Palancia
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Expression diagnostisch verwendbarer Antigene zum Nachweis West-Nil-Virus-spezifischer Antikörper: Expression diagnostisch verwendbarer Antigene zum NachweisWest-Nil-Virus-spezifischer AntikörperDelker, Anna Maria 12 March 2014 (has links)
Grundlage der vorliegenden Arbeit ist die Überlegung, dass eine Möglichkeit, die Spezifität der bisher angewendeten Verfahren zur West-Nil-Virus-Diagnostik zu verbessern, in der Anwendung rekombinanter WNV-spezifischer Antigene besteht. Die unter anderem auf bioinformatischen Methoden basierende Identifikation von potenziellen B-Zell-Epitopen und Auswahl entsprechender Sequenzabschnitte richtete sich dabei gezielt auf immunogene Bereiche, die innerhalb der Gruppe der Flaviviren einen ausreichenden Sequenzunterschied zu allen weiteren sequenzverwandten Erregern, zusammengefasst im Japanische Enzephalitis-Serokomplex, boten. Drei ausgewählte Bereiche innerhalb der Strukturproteinsequenz, bezeichnet als prM, Cnat und Cme, sollten mit Hilfe des Expressionssystems Pichia pastoris bzw. Escherichia coli rekombinant exprimiert werden. Nach Erarbeitung optimaler Expressionsbedingungen folgte die affinitätschromatografische Reinigung der im weiteren Verlauf zur Immunisierung von Balb/c-Mäusen eingesetzten Polypeptide. Die gewonnenen Seren der nach verschiedenen Immunisierungsprotokollen geimpften Mäuse wurden im Anschluss immunologisch untersucht. Es zeigte sich, dass die rekombinanten Derivate des Capsid-Proteins eine deutliche Serokonversion hervorriefen. Analysen der mit Cnat und MBP-Cme immunisierten Mausseren wiesen vorhandene peptidspezifische sowie virusspezifische Antikörper nach. Der Einsatz dieser gewonnenen Peptidantigene im indirekten ELISA-Testsystem zur Detektion WNV-spezifischer Antikörper unter Verwendung humaner WNV-IgG-positiver Serumproben zeigte positive Resultate.
Im Gegensatz hierzu führte die Immunisierung mit prM lediglich zu einer unspezifischen murinen Antikörperbildung. Die Unterscheidung zwischen WNV-positiven und WNV negativen Humanseren war unter Verwendung des rekombinanten Antigens prM nicht möglich.
Im Ergebnis zeigten zwei der drei in dieser Arbeit rekombinant erstellten Strukturproteinabschnitte ihr immunologisches Potenzial in der Generierung muriner WNV spezifischer Antikörper. Zudem konnte mit der Expression der WNV-spezifischen C Protein Antigene ein Beitrag zur Etablierung eines indirekten ELISA-Testsystems zur Detektion WNV-bedingter Humaninfektionen geleistet werden.:Inhaltsverzeichnis
Bibliografische Darstellung V
Abkürzungsverzeichnis VI
Abbildungsverzeichnis IX
Tabellenverzeichnis X
Formelverzeichnis XII
1 Einleitung 1
1.1 West-Nil-Virus: Relevanz und epidemiologische Aspekte 1
1.2 Virale Struktur und Replikation 3
1.3 West-Nil-Virus-Erkrankung: Prädiktion, Pathogenese und Krankheitsbild 7
1.4 Diagnostik von West-Nil-Virus-Infektionen 9
1.5 Zielstellung 12
2 Materialien 13
2.1 Versuchstiere, Bakterien-, Hefe- und Virusstämme 13
2.2 Vektoren und Oligonukleotide 13
2.3 Reagenzsysteme, Standards und Enzyme 15
2.4 Antikörper 16
2.5 Feinchemikalien und Reagenzien 16
2.6 Puffer und Lösungen 19
2.7 Nährmedien 20
2.8 Verbrauchsmaterialien und Technische Ausstattung 21
3 Methoden 25
3.1 Molekularbiologische Methoden 25
3.1.1 Reverse Transkription 25
3.1.2 Polymerase-Kettenreaktion (PCR) 25
3.1.3 DNA-Sequenzierung 28
3.1.4 Agarose-Gelelektrophorese 28
3.1.5 DNA-Reinigung 29
3.1.6 Bestimmung der DNA-Konzentration 29
3.1.7 Restriktionsverdau 29
3.1.8 Ligation 30
3.2 Arbeiten mit E. coli 31
3.2.1 Kultivierung und Lagerung 31
3.2.2 Herstellung kompetenter E. coli-Zellen 31
3.2.3 Transformation von Plasmid-DNA in kompetente E. coli-Zellen 31
3.2.4 Plasmidpräparation aus E. coli 31
3.2.5 Expression rekombinanter Proteine in E. coli 32
3.3 Arbeiten mit P. pastoris 32
3.3.1 Kultivierung und Lagerung 32
3.3.2 Herstellung kompetenter P. pastoris-Zellen 32
3.3.3 Transformation von Plasmid-DNA in kompetente P. pastoris-Zellen 33
3.3.4 Expression rekombinanter Proteine in P. pastoris 33
3.4 Biochemische Methoden 34
3.4.1 Proteinextraktion aus Bakterienzellen 34
3.4.2 Proteinextraktion aus Hefezellen 35
3.4.3 Proteinfällung mittels Trichloressigsäure (TCA) 35
3.4.4 SDS-Polyacrylamidgelelektrophorese (SDS-PAGE) 35
3.4.5 Silberfärbung 37
3.4.6 Western Blot 37
3.4.7 Reinigung der rekombinanten Polypeptide aus Proteingemischen 38
3.4.8 Konzentrationsbestimmung von Proteinen 40
3.4.9 Spaltung von MBP-Fusionsproteinen 40
3.4.10 Indirekter Immunfluoreszenztest (IFT) 41
3.4.11 Immunisierung der Balb/c-Mäuse 42
3.4.12 Indirekter ELISA 43
3.4.13 Bestimmung des murinen Antikörpertiters 44
3.4.14 Nachweis humaner Antikörper im Testserum 45
4 Ergebnisse 46
4.1 Definition der ausgewählten Strukturproteinsequenzen 46
4.2 Expression der rekombinanten Polypeptide prM, Cnat und Cme in P. pastoris 47
4.2.1 Klonierung der Expressionsplasmide 47
4.2.2 Transformation von Pichia pastoris 49
4.2.3 Expression der Zielpeptide in P. pastoris 51
4.3 Expression von Cnat und Cme in E. coli 56
4.3.1 Klonierung der Expressionsplasmide 56
4.3.2 Transformation von E. coli 58
4.3.3 Expression der WNV-Sequenzen Cnat und Cme als Fusionsproteine 59
4.3.4 Spaltung der Fusionsproteine mittels Faktor Xa 62
4.3.5 Isolierung der Zielpeptide Cnat und Cme 63
4.4 Untersuchung der Immunogenität der rekombinanten WNV-Polypeptide 66
4.4.1 Immunisierung von Versuchstieren mit rekombinanten WNV-Polypeptiden 66
4.4.2 Analyse der murinen Seren mittels ELISA 66
4.4.3 Erweiterte Analyse des rekombinanten prM-Polypeptids mit Humanseren 67
4.4.4 Erweiterte Analyse der murinen prM-Seren im IFT 69
4.5 Prüfung der rekombinanten Peptidantigene auf ihre Verwendbarkeit in einem WNV-spezifischen Testsystem 69
4.5.1 Untersuchung der humanen Seren S2-S42 mittels ELISA 69
4.5.2 Einsatz von Cnat und MBP-Cme als Antigene zur Untersuchung der humanen Seren S2-S42 im ELISA 70
5 Diskussion 72
5.1 Expression von prM, Cnat und Cme in P. pastoris 73
5.2 Expression von Cnat und Cme in E. coli 77
5.3 Analyse der Immunogenität von prM, Cnat und MBP-Cme 79
5.4 Beitrag zur Etablierung eines indirekten ELISA für die Detektion WNV-spezifischer Antikörper in humanen Serumproben 84
6 Zusammenfassung 90
7 Literaturverzeichnis 94
8 Anhang 104
Erklärung über die eigenständige Abfassung der Arbeit XIV
Danksagung XV
Lebenslauf XVI
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The Use of Antibody-Guided and Recombinant Subunit Vaccine Technology in the Study and Control of Enteric Health in PoultryDuff, Audrey Faye January 2018 (has links)
No description available.
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Funktionelle Rekonstitution von Connexonen in artifizielle Membranen: Expression, Reinigung und Charakterisierung von Connexin 43 / Functional reconstitution of connexons in artificial membranes: expression, purification and characterization of connexin 43Carnarius, Christian 11 June 2012 (has links)
No description available.
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Analysis of maturation of measles virus hemaglutinin in yeast S. cerevisiae and P. pastoris secretory pathway and humanization of yeast cells / Tymų viruso hemagliutinino baltymo brendimo procesų mielių S. cerevisiae ir P. pastoris ląstelių sekreciniame kelyje tyrimas ir mielių humanizavimasČiplys, Evaldas 27 December 2011 (has links)
The aims of the study were to determine the reasons for unsuccessful expression of measles virus hemaglutinin (MeH) in the yeast cells and to generate a stable yeast strains with integrated genes of protein secretory pathway of human cells and to examine influence of coded human proteins on MeH maturation. For the firs time, overexpression of MeH in yeast S. cerevisiae and P. pastoris was described. It was demonstrated that mechanisms of cotranslational translocation into the endoplasmic reticulum (ER) and protein maturation in the ER of yeast cells are not adapted to deal with for such complex virus glycoproteins. Proteomic analysis revealed, that overexpression of human virus surface protein precursors induces cytosolic unfolded protein response (UPR-cyto) in the yeast S. cerevisiae. A key feature of this response is the formation of extremely large aggregates involving macromolecular structures of eEF1A. Efficient mammalian like cotranslational translocation pathway was attempted to reconstitute in yeast cells by transferring human SRP, Sec61 complexes and TRAM1 protein. Human chaperones BiP, clanexin, calreticulin, ERp57 and PDI were transferred to the yeast cells to create suitable environment for maturation of MeH in the ER. Even though yeast strains, able to produce biologically active MeH protein, were not generated during this study, results show, that humanization of yeast secretory pathway, designed for producing active virus glycoproteins, is possible. / Baigiamojo darbo tikslai – nustatyti neefektyvios žmogaus virusų glikobaltymų raiškos mielėse priežastis ir sukurti mielių kamienus su integruotais žmogaus ląstelių sekrecinio kelio genais bei ištirti jų įtaką glikobaltymų sintezei ir brendimui mielėse. Darbo eigoje pirmą kartą buvo aprašytos tymų viruso hemagliutinino (TVH) sintezės galimybės mielėse Saccharomyces cerevisiae ir Pichia pastoris. Parodyta, kad mielių ko-transliacinio baltymų perkėlimo į endoplazminį tinklą (ET) ir ET baltymų sulankstymo mechanizmai nėra pritaikyti sudėtingų virusinių baltymų brendimui, todėl klasikinės mielių rūšys ir standartiniai rekombinantinių baltymų raiškos ir gryninimo protokolai nėra tinkami diagnostikai ir vakcinų kūrimui reikalingo TVH baltymo gavimui. Proteominė S. cerevisiae ląstelių, sintetinančių TVH baltymą, analizė leido nustatyti kad, TVH sintezė mielėse sukelia neseniai literatūroje aprašytą citoplazminį nesusivyniojusių baltymų atsaką (UPR-cyto). Pagrindinis šiame darbe aprašyto atsako į stresą požymis yra ypatingai didelių baltymų agregatų, kurių šerdį sudaro TVH ir mielių eEF1A baltymai, susidarymas. Žmogaus tipo ko-transliacinį baltymų pernešimą į ET mielių ląstelėse bandyta atkurti perkeliant žmogaus SRP, Sec61 kompleksų ir TRAM1 baltymus, o siekiant sukurti tinkamas TVH baltymo brendimui sąlygas, mielių ląstelių ET buvo sintetinami pagrindiniai žmogaus ląstelių ET šaperonai – BiP, kalretikulinas, kalneksinas, PDI ir ERp57. Nors šiame darbe nepavyko sukurti mielių... [toliau žr. visą tekstą]
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Tymų viruso hemagliutinino baltymo brendimo procesų mielių S. cerevisiae ir P. pastoris ląstelių sekreciniame kelyje tyrimas ir mielių humanizavimas / Analysis of maturation of measles virus hemaglutinin in yeast S. cerevisiae and P. pastoris secretory pathway and humanization of yeast cellsČiplys, Evaldas 27 December 2011 (has links)
Baigiamojo darbo tikslai – nustatyti neefektyvios žmogaus virusų glikobaltymų raiškos mielėse priežastis ir sukurti mielių kamienus su integruotais žmogaus ląstelių sekrecinio kelio genais bei ištirti jų įtaką glikobaltymų sintezei ir brendimui mielėse. Darbo eigoje pirmą kartą buvo aprašytos tymų viruso hemagliutinino (TVH) sintezės galimybės mielėse Saccharomyces cerevisiae ir Pichia pastoris. Parodyta, kad mielių ko-transliacinio baltymų perkėlimo į endoplazminį tinklą (ET) ir ET baltymų sulankstymo mechanizmai nėra pritaikyti sudėtingų virusinių baltymų brendimui, todėl klasikinės mielių rūšys ir standartiniai rekombinantinių baltymų raiškos ir gryninimo protokolai nėra tinkami diagnostikai ir vakcinų kūrimui reikalingo TVH baltymo gavimui. Proteominė S. cerevisiae ląstelių, sintetinančių TVH baltymą, analizė leido nustatyti kad, TVH sintezė mielėse sukelia neseniai literatūroje aprašytą citoplazminį nesusivyniojusių baltymų atsaką (UPR-cyto). Pagrindinis šiame darbe aprašyto atsako į stresą požymis yra ypatingai didelių baltymų agregatų, kurių šerdį sudaro TVH ir mielių eEF1A baltymai, susidarymas. Žmogaus tipo ko-transliacinį baltymų pernešimą į ET mielių ląstelėse bandyta atkurti perkeliant žmogaus SRP, Sec61 kompleksų ir TRAM1 baltymus, o siekiant sukurti tinkamas TVH baltymo brendimui sąlygas, mielių ląstelių ET buvo sintetinami pagrindiniai žmogaus ląstelių ET šaperonai – BiP, kalretikulinas, kalneksinas, PDI ir ERp57. Nors šiame darbe nepavyko sukurti mielių... [toliau žr. visą tekstą] / The aims of the study were to determine the reasons for unsuccessful expression of measles virus hemaglutinin (MeH) in the yeast cells and to generate a stable yeast strains with integrated genes of protein secretory pathway of human cells and to examine influence of coded human proteins on MeH maturation. For the firs time, overexpression of MeH in yeast S. cerevisiae and P. pastoris was described. It was demonstrated that mechanisms of cotranslational translocation into the endoplasmic reticulum (ER) and protein maturation in the ER of yeast cells are not adapted to deal with for such complex virus glycoproteins. Proteomic analysis revealed, that overexpression of human virus surface protein precursors induces cytosolic unfolded protein response (UPR-cyto) in the yeast S. cerevisiae. A key feature of this response is the formation of extremely large aggregates involving macromolecular structures of eEF1A. Efficient mammalian like cotranslational translocation pathway was attempted to reconstitute in yeast cells by transferring human SRP, Sec61 complexes and TRAM1 protein. Human chaperones BiP, clanexin, calreticulin, ERp57 and PDI were transferred to the yeast cells to create suitable environment for maturation of MeH in the ER. Even though yeast strains, able to produce biologically active MeH protein, were not generated during this study, results show, that humanization of yeast secretory pathway, designed for producing active virus glycoproteins, is possible.
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