Global ETD Search

21	Differential Expression of Genes Encoding Secreted Proteins in Penicillium Marneffei Rezenom, Suzie Haile 31 May 2013 (has links) No description available. Biology Molecular Biology Microbiology Dimorphic fungus Penicillium marneffei Secreted proteins Fungal pathogen
22	Contribution à l'étude des déterminants génétiques impliqués dans le processus infectieux de Melampsora larici-populina, l'agent de la rouille foliaire du peuplier / Analysis of Melampsora larici-populina genetic determinants involved in the poplar leaf infection process. Genomic and transcriptomic approaches Hacquard, Stéphane 18 November 2010 (has links) La maladie de la rouille foliaire du peuplier, causée par le basidiomycète Melampsora larici-populina (Mlp) cause des dégâts importants dans les peupleraies européennes. Le séquençage du génome de la souche 98AG31 de Mlp a ouvert de nouvelles perspectives pour l'identification de déterminants géniques impliqués dans le processus infectieux du champignon et notamment ceux codant des effecteurs fongiques capables de manipuler la structure et le fonctionnement de la cellule hôte pour assurer le succès de l'infection. L'analyse du transcriptome du champignon au cours des différentes phases du processus infectieux, basée sur l'utilisation de puces à oligonucléotides NimbleGen ou le séquençage massifs d'ESTs, a permis d?identifier des gènes marqueurs de la germination, de la phase de croissance biotrophe et de la sporulation du champignon. Nous avons notamment pu montrer l'induction importante de nombreux gènes codant des petites protéines sécrétées (SSPs) au cours de la phase biotrophe à 96 hpi heures post-inoculation (hpi) ainsi qu'au sein du parenchyme lacuneux à 168 hpi par microdissection à capture laser. L?analyse fine du sécrétome de Mlp, basée sur l'annotation, l'évolution et l'expression des gènes codant des SSPs a permis de mettre à jour des effecteurs candidats. Certains, spécifiquement exprimés in planta ou présentant des homologies de séquence avec des effecteurs de rouilles ont été localisés au niveau de l'haustorium. De manière intéressante, d'autre gènes candidats appartenant à des familles multigéniques sous pression de sélection positive, sont riches en cystéines, spécifiquement exprimés in planta et possèdent un motif de translocation potentiellement impliqué dans l'export de l'effecteur dans la cellule hôte. Ce travail d'analyse fine des effecteurs potentiels d'un agent de rouille à l'échelle génomique va contribuer à l'amélioration des connaissances sur la biologie de ces champignons biotrophes et contribuera à faciliter la recherche de nouvelles méthodes de lutte contre la maladie / The leaf rust disease caused by Melampsora larici-populina (Mlp) is the main disease affecting poplar plantations in Europe with severe economic losses. The recent sequencing of the genome of Mlp (strain 98AG31) opens new perspectives to identify key genes involved in the fungal infection process and particularly those encoding fungal effectors that could manipulate host cell structure and function to facilitate host colonization. Analysis of the rust transcriptome during time course infection of poplar leaves, based on NimbleGen oligoarrays and massive EST sequencing led to the identification of genes related to fungal germination, biotrophy and sporulation. A consistant induction of genes encoding small-secreted proteins (SSPs) was observed during the biotrophic growth at 96 hours post-inoculation (hpi) but also at 168 hpi in the palisade mesophyll using laser capture microdissection. Mlp Secretome analysis, based on annotation, evolution and expression of genes encoding SSPs helped in identifying candidate poplar rust effectors. Some, specifically expressed in planta or showing homologies with known rust effectors were localized around the haustorium. Interestingly, other candidate genes, belonging to multigenic families under diversifying selection are cystein-rich, specifically expressed in planta and harbour a translocation signal potentially involved in effector export inside host cell. This genome-wide analysis of putative fungal effectors will contribute to the general knowledge of rust biology and will help to set new approaches to prevent and control the disease Rouille Biotrophe Peuplier Génomique Transcriptome Protéines sécrétées Effecteurs Rust fungi Biotroph Poplar Genomics Transcriptome Secreted proteins Effectors
23	Interaction Studies of Secreted Aspartic Proteases (Saps) from Candida albicans : Application for Drug Discovery Backman, Dan January 2005 (has links) This thesis is focused on enzymatic studies of the secreted aspartic proteases (Saps) from Candida albicans as a tool for discovery of anti-candida drugs. C. albicans causes infections in a number of different locations, which differ widely in the protein substrates available and pH. Since C. albicans needs Saps during virulent growth, these enzymes are good targets for drug development. In order to investigate the catalytic characteristics of Saps and their inhibitor affinities, substrate-based kinetic assays were developed. Due to the low sensitivity of these assays, especially at the sub-optimal pH required to mimic the different locations of infections, these assays were not satisfactory. Therefore, a biosensor assay was developed whereby, it was possible to study interaction between Saps and inhibitors without the need to optimise catalytic efficacy. Furthermore, the biosensor assay allowed determination of affinity, as well as the individual association and dissociation rates for inhibitor interactions. Knowledge about substrate specificity, Sap subsite adaptivity, and the pH dependencies of catalytic efficacy has been accumulated. Also, screening of transition-state analogue inhibitors designed for HIV-1 protease has revealed inhibitors with affinity for Saps. Furthermore, the kinetics and pH dependencies of their interaction with Saps have been investigated. One of these inhibitors, BEA-440, displayed a complex interaction with Saps, indicating a conformational change upon binding and a very slow dissociation rate. A time dependent interaction was further supported by inhibition measurements. The structural information obtained affords possibilities for design of new more potent inhibitors that might ultimately become drugs against candidiasis. The strategy to combine substrate specificity studies with inhibitor screening has led to complementary results that generate a framework for further development of potent inhibitors. Biochemistry SPR Biosensor Secreted aspartic proteases Candida albicans interaction kinetics drug discovery protease inhibitor Biokemi Biochemistry and Molecular Biology Biokemi och molekylärbiologi
24	Etude in vivo du rôle potentiel de la phospholipase A2 de groupe IIA humaine dans le paludisme : Caractérisation de la physiopathologie de l'infection à Plasmodium chabaudi chez la souris C57BL/6 transgénique pour l'enzyme / In vivo study of the potential role of group IIA phospholipase A2 in malaria : Pathophysiological characterization of C57BL/6 group IIA phospholipase A2 transgenic mice infected with Plasmodium chabaudi Dacheux, Mélanie 28 September 2018 (has links) Le paludisme est une maladie tropicale causée par un parasite du genre Plasmodium. Chez l’Homme, un niveau élevé de phospholipase A2 sécrétée de groupe IIA humaine (hGIIA) est mesuré dans le plasma des patients impaludés. Cette enzyme est connue pour son rôle antibactérien et pro-inflammatoire. Cependant, son rôle dans le paludisme n’a jamais été exploré. Pour comprendre le rôle in vivo de la hGIIA dans cette pathologie, nous avons entrepris la caractérisation hématologique, histopathologique et immunohistochimique de l’infection de souris C57BL/6, transgéniques (Tg+) pour l’enzyme humaine, par l’espèce murine Plasmodium chabaudi chabaudi 864VD. Ce modèle reproduit un paludisme non létal. Nos résultats ont permis d’établir que les souris Tg+ ont un meilleur contrôle de l’infection au moment du pic de crise parasitaire (J14 post-inoculation), avec une diminution de 27% de la parasitémie, comparé aux souris « littermates » non transgéniques (Tg-). L’injection de hGIIA recombinante aux jours 12, 13 et 14 p.i. (0,125 mg/kg deux fois par jour) à des souris C57BL/6 wild-type (WT) infectées par P. c. chabaudi 864VD provoque une diminution d’environ 19% de la parasitémie à J14 p.i., démontrant un rôle direct de la hGIIA dans la diminution de la population parasitaire. Les données hématologiques montrent que l’infection chez la souris Tg+ provoque une anémie plus durable que chez la souris Tg- et une élévation nettement plus importante du nombre de leucocytes, en particulier des polynucléaires neutrophiles. Chez la souris Tg+ parasitée, on observe aussi l’activation d’un nombre important de lymphocytes et une activation spécifique des monocytes avant le pic de crise. Chez la souris Tg- infectée, les données histologiques mettent en avant une meilleure récupération des lésions histopathologiques du foie et une hyperplasie des lymphocytes B dans la rate, tandis que les souris Tg+ infectées présentent des lésions hépatiques tardives et une hématopoïèse extramédullaire splénique. Les résultats des analyses par RT-qPCR suggèrent que l’ARNm de la hGIIA augmente au pic parasitaire dans le foie des souris Tg+ infectées, mais diminue dans la rate et les cellules sanguines. L’injection de hGIIA recombinante au début de la phase patente est sans effet sur la parasitémie, ce qui laisse supposer que des événements plus tardifs dans l’infection sont nécessaires à l’activité antiparasitaire de l’enzyme. L’étude du rôle des lipoprotéines oxydées comme substrat potentiel de l’activité antiparasitaire de l’enzyme, basée sur des résultats in vitro, est abordée. En conclusion, nos études ont permis de dresser un tableau large de l’infection à Plasmodium chez la souris exprimant la hGIIA, et ouvrent de nouvelles perspectives dans l’analyse du rôle de l’enzyme dans la physiopathologie du paludisme. / Malaria is a tropical disease caused by a parasite of the Plasmodium genus. High levels of circulating human group IIA secreted phospholipase A2 (hGIIA) have been reported in malaria patients. The enzyme is well known for its bactericidal and pro-inflammatory actions. However, so far its role in malaria is unknown. In order to address the in vivo role of hGIIA in malaria, we performed a hematological, histopathological and immunohistochemical characterization of C57BL/6 hGIIA transgenic mice (Tg+ mice) infected with P. chabaudi chabaudi (864VD strain), a murine Plasmodium species and strain which causes non-lethal chronic malaria. Infected Tg+ mice present a 27% reduction of parasitaemia at the peak of infection (D14 post-inoculation, p.i.) compared to infected non-transgenic littermates (Tg- mice). Intraperitoneal injection of recombinant hGIIA at D12, D13 and D14 p.i. (0.125 mg/kg twice a day) into P. chabaudi 864VD-infected WT C57BL/6 mice leads to a 19% reduction of the parasitaemia at D14 p.i., demonstrating the direct and acute role of hGIIA in lowering parasite population and presumably ruling out a potential effect linked to chronic overexpression of hGIIA in Tg+ mice. Hematological data show a durable anemia in Tg+ mice compared to Tg- mice during the infection and an important increase of leucocytes, especially of polynuclear neutrophils. The parasitized Tg+ mouse also presents a higher activation of lymphocytes and a specific activation of monocyte cells at the pic of crisis. In the infected Tg- mouse, histological data show a better histopathological recovery in the liver and B cells hyperplasia in the spleen, whereas the infected Tg+ mouse presents late hepatic injuries and splenic extra-medullar hematopoiesis. RT-qPCR analyses suggest that hGIIA mRNA increases at the pic of infection in the liver of infected Tg+ mice, but decreases in spleen and blood. Intraperitoneal injection of recombinant hGIIA at the patent phase is without effect on parasitaemia, which suggests that later infection events are needed for the enzyme antiparasitic activity. Involvement of oxidized-lipoproteins as potential hGIIA substrates, based on in vitro studies, is discussed. In conclusion, our studies allowed us to elaborate a larger picture of the infection of Plasmodium in the mice expressing hGIIA and open new perspectives in the analysis of the role of the enzyme in malaria pathophysiology. Paludisme Phospholipase A2 sécrétée Plasmodium chabaudi Histopathologie Physiopathologie Souris transgénique Malaria Secreted phospholipase A2 Plasmodium chabaudi Histopathology Pathophysiology Transgenic mouse
25	Interaction Studies of Secreted Aspartic Proteases (Saps) from <i>Candida albicans</i> : Application for Drug Discovery Backman, Dan January 2005 (has links) <p>This thesis is focused on enzymatic studies of the secreted aspartic proteases (Saps) from <i>Candida albicans</i> as a tool for discovery of anti-<i>candida</i> drugs. <i>C. albicans</i> causes infections in a number of different locations, which differ widely in the protein substrates available and pH. Since <i>C. albicans</i> needs Saps during virulent growth, these enzymes are good targets for drug development.</p><p>In order to investigate the catalytic characteristics of Saps and their inhibitor affinities, substrate-based kinetic assays were developed. Due to the low sensitivity of these assays, especially at the sub-optimal pH required to mimic the different locations of infections, these assays were not satisfactory. Therefore, a biosensor assay was developed whereby, it was possible to study interaction between Saps and inhibitors without the need to optimise catalytic efficacy. Furthermore, the biosensor assay allowed determination of affinity, as well as the individual association and dissociation rates for inhibitor interactions.</p><p>Knowledge about substrate specificity, Sap subsite adaptivity, and the pH dependencies of catalytic efficacy has been accumulated. Also, screening of transition-state analogue inhibitors designed for HIV-1 protease has revealed inhibitors with affinity for Saps. Furthermore, the kinetics and pH dependencies of their interaction with Saps have been investigated. One of these inhibitors, BEA-440, displayed a complex interaction with Saps, indicating a conformational change upon binding and a very slow dissociation rate. A time dependent interaction was further supported by inhibition measurements. The structural information obtained affords possibilities for design of new more potent inhibitors that might ultimately become drugs against candidiasis. The strategy to combine substrate specificity studies with inhibitor screening has led to complementary results that generate a framework for further development of potent inhibitors.</p> Biochemistry SPR Biosensor Secreted aspartic proteases Candida albicans interaction kinetics drug discovery protease inhibitor Biokemi Biochemistry Biokemi
26	Characterization of the Novel Cysteine-rich Extracellular Calmodulin-binding Protein cyrA from Dictyostelium discoideum Suarez, Andres 15 February 2010 (has links) A novel calmodulin (CaM)-binding cysteine-rich protein from Dictyostelium, cyrA, with epidermal growth factor-like (EGFL) repeats was discovered and characterized. Calcium-dependent and –independent CaM-binding was verified. Western blots show that full length cyrA is detected constitutively throughout development. Analyses of the extracellular medium reveal that cyrA is cleaved and that the fragments containing the N-terminus are secreted early in development, while those containing the C-terminus are secreted later. In support of this, GFP and immunohistochemistry studies reveal that cyrA localizes to the endoplasmic reticulum and secretory vesicles of vegetative cells, and to the extracellular matrix (slime sheath) of migrating slugs. The addition of EGFL1 peptides enhanced cell motility and cAMP-mediated chemotaxis. Finally, cyrA cleavage is regulated by extracellular Dictyostelium CaM and by the extracellular EGFL repeats. In total the data suggest that cyrA is a true matricellular protein that mediates cell motility during multicellular development. calmodulin-binding protein Dictyostelium extracellular matricellular epidermal growth factor-like cysteine rich proteolytic processing secreted calmodulin cyrA 0379
27	Characterization of the Novel Cysteine-rich Extracellular Calmodulin-binding Protein cyrA from Dictyostelium discoideum Suarez, Andres 15 February 2010 (has links) A novel calmodulin (CaM)-binding cysteine-rich protein from Dictyostelium, cyrA, with epidermal growth factor-like (EGFL) repeats was discovered and characterized. Calcium-dependent and –independent CaM-binding was verified. Western blots show that full length cyrA is detected constitutively throughout development. Analyses of the extracellular medium reveal that cyrA is cleaved and that the fragments containing the N-terminus are secreted early in development, while those containing the C-terminus are secreted later. In support of this, GFP and immunohistochemistry studies reveal that cyrA localizes to the endoplasmic reticulum and secretory vesicles of vegetative cells, and to the extracellular matrix (slime sheath) of migrating slugs. The addition of EGFL1 peptides enhanced cell motility and cAMP-mediated chemotaxis. Finally, cyrA cleavage is regulated by extracellular Dictyostelium CaM and by the extracellular EGFL repeats. In total the data suggest that cyrA is a true matricellular protein that mediates cell motility during multicellular development. calmodulin-binding protein Dictyostelium extracellular matricellular epidermal growth factor-like cysteine rich proteolytic processing secreted calmodulin cyrA 0379
28	Clonagem e expressão heteróloga do antígeno SsaA de Staphylococcus saprophyticus e avaliação da secreção durante interação com macrófagos / Cloning and heterologous expression of the staphylococcus saprophyticus antigen SsaA and evaluation of secretion during interaction with macrophages Rosa, Isabella I. R. 28 June 2016 (has links) Submitted by Jaqueline Silva (jtas29@gmail.com) on 2016-09-14T17:40:15Z No. of bitstreams: 2 Dissertação - Isabella Inês Rodrigues Rosa - 2016.pdf: 1910068 bytes, checksum: 8f551746fe8c21347507aecf98f02609 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Approved for entry into archive by Jaqueline Silva (jtas29@gmail.com) on 2016-09-14T17:41:15Z (GMT) No. of bitstreams: 2 Dissertação - Isabella Inês Rodrigues Rosa - 2016.pdf: 1910068 bytes, checksum: 8f551746fe8c21347507aecf98f02609 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Made available in DSpace on 2016-09-14T17:41:15Z (GMT). No. of bitstreams: 2 Dissertação - Isabella Inês Rodrigues Rosa - 2016.pdf: 1910068 bytes, checksum: 8f551746fe8c21347507aecf98f02609 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Previous issue date: 2016-06-28 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Staphylococcus saprophyticus is a pathogenic bacterium of the urinary tract and the main etiological agent of urinary tract infections by Gram-positive bacteria. Although S. saprophyticus potentially can cause serious infections such as pyelonephritis, septicemia, endocarditis and nephrolithiasis, and also multidrug resistance has been reported, not much is known about the mechanisms used by this bacterium during infection. Secreted proteins might be essential on those mechanisms if their role is accomplished during phagocytosis by their assistance of an active infection in phagocytic cells, protecting against oxidative stress and increasing the persistence of bacterial cells within phagocytes, and / or causing lysis of the host cell. Recently our group identified the immunogenic protein SsaA in the secretome of S. saprophyticus. This protein had been previously identified in S. aureus proteome, and it appears to be controlled by regulatory systems for known virulence factors. It also presents similarities with lytic proteins and proteins that assist the persistence within phagocytic cells. However, no approach had analyzed the contribution of SsaA during infection, therefore, through the construction a cloning vector containing the S. saprophyticus gene ssaA, heterologous expression of the recombinant protein and the production of specific polyclonal antibodies, it was able to verify the interaction of SsaA and proteins from macrophages infected by bacterial cells. Through immunofluorescence microscopy, it was verified that the dispersion of SsaA is not limited to phagocytic cells but it was throughout their cytoplasm after internalization of the bacterium. These findings together with other evidence in the literature suggest that SsaA is used during infection by S. saprophyticus, more specifically during phagocytosis. Further approaches are required to confirm if SsaA has a lytic activity and also characterize this protein as a virulence factor, contributing to elucidate strategies used by S. saprophyticus during infection in the human host. / Staphylococcus saprophyticus é uma bactéria patogênica do trato urinário e principal agente etiológico de infecções urinárias por bactérias Gram-positivas. Apesar de potencialmente S. saprophyticus ocasionar infecções graves como pielonefrite, septicemia, nefrolitíase e endocardite, e relatos de multirresistência a antibióticos, relativamente pouco é conhecido sobre os mecanismos utilizados por esta bactéria durante infecção. Proteínas secretadas podem ser essenciais nesses mecanismos se seus papéis forem durante fagocitose auxiliando uma internalização ativa na célula fagocítica, protegendo contra o estresse oxidativo e aumentando a persistência de células bacterianas no interior de fagócitos, e/ou causando lise da célula hospedeira. Recentemente nosso grupo identificou a proteína imunogênica SsaA no secretoma de S. saprophyticus. Essa proteína já havia sido identificada em S. aureus como altamente imunogênica, e parece estar relacionada a fatores de virulência como o Antígeno Imunodominante A (IsaA), a proteína Urease, a hidrolase de peptideoglicano LytM, a Proteína Repressora de Toxinas (Rot) e a proteína de choque térmico HslU. Contudo, poucos estudos conseguem identificar a proteína SsaA secretada e nenhum analisa sua contribuição durante infecção por bactérias do gênero Staphylococcus. Através da construção de um vetor de clonagem contendo o gene ssaA de S. saprophyticus, expressão heteróloga da proteína recombinante e produção de anticorpos policlonais específicos, foi possível verificar a interação entre SsaA e proteínas de macrófagos infectados por células de S. saprophyticus. Através de microscopia de imunofluorescência, foi verificado que a secreção de SsaA não é limitada à fagossomos, mas esta proteína é dispersa em todo o citoplasma da célula fagocítica após internalização de células bacterianas. Os resultados encontrados sugerem que SsaA é utilizada por S. saprophyticus durante infecção, especificamente durante fagocitose. Estudos posteriores serão necessários para confirmar se SsaA possui atividade lítica e caracteriza-la como fator de virulência, contribuindo para elucidar estratégias utilizadas por S. saprophyticus durante infecção no hospedeiro humano. Staphylococcus saprophyticus Proteína secretada Infecção Fagocitose Clonagem molecular Staphylococcus saprophyticus Secreted protein Infection Phagocytosis Molecular cloning BIOQUIMICA::BIOLOGIA MOLECULAR
29	Analyse d’effecteurs du champignon ectomycorhizien Laccaria bicolor : approches bio-informatiques et fonctionnelles / Analysis of effector proteins from the ectomycorrhizal fungus Laccaria bicolor : bioinformatic and functional analysis Pellegrin, Clément 26 April 2016 (has links) La symbiose ectomycorhizienne associe les racines d’un arbre aux hyphes d’un champignon, conduisant à un échange réciproque de nutriments entre les deux partenaires. La colonisation fongique massive du cortex racinaire est caractérisée par la formation d’une interface symbiotique, le réseau de Hartig. L’acquisition du génome du symbionte ectomycorhizien Laccaria bicolor a permis d’identifier des petites protéines prédites sécrétées, les MiSSPs (Mycorrhiza-induced Small Secreted Proteins). Mon projet de thèse avait pour objectifs la comparaison des sécrétomes, notamment les petites protéines sécrétées (SSPs), de champignons ectomycorhiziens et saprotrophes, la localisation subcellulaire in planta et l’analyse fonctionnelle de MiSSPs de L. bicolor. L’analyse bioinformatique a notamment permis de révéler des clusters de SSPs conservées entre champignons ectomycorhiziens et saprotrophes ou spécifiques de champignons ectomycorhiziens, mettant en lumière que les champignons ectomycorhiziens partagent des SSPs avec leurs ancêtres saprotrophes mais possèdent aussi d’autres SSPs spécifiques à leur mode de vie. Un jeu de MiSSPs de L. bicolor ont été localisées in planta. Trois d’entre eux ciblent spécifiquement des compartiments subcellulaires de la cellule végétale. Le motif répété DWRR présent dans la séquence de MiSSP8 est partagé par une famille de protéine fongique de champignons majoritairement saprotrophes. Ces résultats suggèrent que l’utilisation de SSPs comme moyen de communication est générique chez les champignons et démontrent aussi qu’au moins une petite protéine sécrétée requise pour la symbiose de L. bicolor a évoluée à partir de protéines de champignons saprotrophes / Roots of most trees form ectomycorrhizal (ECM) symbiosis with mutualistic soil-borne fungi, relying on a bi-directional exchange of nutrients between the two partners. Fungal colonization of cortical root cells form the Hartig net, a symbiotic interface. Functioning of this symbiotic interface is not well known. However, Laccaria bicolor genome sequencing sheds the light on upregulated small-secreted proteins, so-called MiSSPs (Mycorrhiza-Small Secreted Proteins). Several L. bicolor MiSSPs were demonstrated as symbiosis effectors. My PhD project aims to compare secretomes, in particular SSPs, of fungal with different lifestyles and pursue functional analysis of MiSSPs of L. bicolor. Based on the clustering analysis, we identified clusters of SSPs shared between saprotrophic and ECM fungi and clusters of SSPs specific to ECM-fungi. This study highlights that ECM fungi share SSPs with their saprotrophic ancestors but also possess lifestyle specific SSPs. In planta subcellular localization of a set of MiSSPs belonging to a core-regulon showed that three of them are able to target different plant subcellular compartments. Functional analysis of the symbiosis effector MiSSP8 does not lead to the identification of a putative interactor but the repetitive motif DWRR of MiSSP8 protein sequence is unique to fungi and is shared with SSPs from saprotrophic ancestors. Our results suggest the use of SSPs as mean of communication is common and generic and show at least one SSPs required for ectomycorhizal symbiosis of L. bicolor has evolved from SSPs found in saprotrophic fungi Effecteurs Petites protéines sécrétées Ectomycorhize Symbiose Laccaria bicolor Effectors Small-Secreted proteins Ectomycorrhizal Symbiosis Laccaria bicolor 572.62 572.602 85
30	Optimalizace produkce rekombinantních proteinů v buněčné kultuře / Optimization of recombinant protein production in animal cell culture Kyselá, Hana January 2008 (has links) V této diplomové práci je popsána přechodná transfekce buněk 293 HEK adaptovaných na růst při suspenzní kultivaci bez přítomnosti séra za použití polyethyleniminů (PEI). Buňky byly transfekovány plasmidem pcDNA5/SEAP, který exprimuje sekretovanou formu lidské placentální alkalické fosfatázy. K porovnání účinnosti jednotlivých transfekcí byla měřena koncentrace exprimované fosfatázy v buněčném supernatantu. Cílem této práce bylo optimalizovat různé faktory ovlivňující účinnost transfekcí s důrazem na nalezení optimálního poměru DNA:PEI.

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