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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Avaliação de estruturas bacterianas envolvidas no estabelecimento do padrão de aderência híbrido localizado/difuso em amostras de Escherichia coli enteropatogênica atípica pertencentes ao sorotipo O2:H16

Vieira, Melissa Arruda January 2020 (has links)
Orientador: Rodrigo Tavanelli Hernandes / Resumo: O principal mecanismo de virulência de Escherichia coli enteropatogênica (EPEC) é a capacidade de causar uma lesão histopatológica na mucosa intestinal denominada attaching and effacing (AE), caracterizada pela aderência íntima das bactérias, destruição das microvilosidades e formação de estruturas semelhantes a pedestais, ricos em F-actina, nos enterócitos infectados. Genes do locus of enterocyte effacement (região LEE) codificam todas as proteínas necessárias para a formação da lesão AE. As EPEC são divididas em típicas (tEPEC) e atípicas (aEPEC), com base na presença do EPEC adherence factor plasmid no primeiro grupo. A partir de um conjunto de sete amostras de aEPEC pertencentes ao sorotipo O2:H16, obtidos de surtos e casos esporádicos de diarreia, mostramos que cinco deles produziram uma adesão híbrida localizada/difusa (AL/AD) em células HeLa. Neste estudo, uma amostra de aEPEC deste sorotipo (282/14), que produziu o padrão AL/AD, foi selecionada para investigar as estruturas bacterianas envolvidas em seu fenótipo adesivo. Para este propósito, a amostra de aEPEC 282/14 foi mutagenizada usando o kit EZ::TN <R6Kyori/KAN-2> Tnp transposome kit, gerando uma biblioteca de inserções Tn5. Esses mutantes de inserção Tn5 foram testados quanto a perda ou redução da capacidade aderente, em ensaios realizados em 6 h de incubação com células HeLa. Dentre 320 clones pesquisados, nove foram considerados deficientes em sua capacidade de interagir com células epiteliais e quatro deles a... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The main virulence mechanism of enteropathogenic Escherichia coli (EPEC) is the capacity to cause a histopathological lesion on the intestinal mucosa, termed Attaching and Effacing (AE); characterized by intimate bacterial adherence, microvillus destruction and formation of F-actin rich pedestal-like structures, in infected enterocytes. Genes of the locus of enterocyte effacement (LEE region) encode all proteins necessary for AE lesion formation. EPEC are divided in typical (tEPEC) and atypical (aEPEC), based on the presence of the EPEC adherence factor plasmid in the former group. From a collection of seven aEPEC O2:H16, obtained from outbreak and sporadic cases of diarrhea, we showed that five of them produced a hybrid localized/diffuse adherence (LA/DA) in HeLa cells. In this study, we selected one aEPEC isolate of this serotype (282/14) that produced the LA/DA pattern, to investigate the bacterial structures involved in its adhesive phenotype. For this purpose, aEPEC 282/14 was mutagenized using the EZ::TN < R6Kyori/KAN-2 > Tnp transposome kit, generating a library of Tn5 insertions. These Tn5 insertion mutants were screened for non-adherent or less adherent mutants, in assays performed in 6 h of incubation with HeLa cells. Among the 320 clones screened, nine were considered deficient in their ability to interact with epithelial cells, and four of them presented the Tn5 insertion in genes within the LEE region, such as tir, escV, and grlR. In order to confirm the role of ... (Complete abstract click electronic access below) / Doutor
2

Needle Tip-Pore Interactions in the Pseudomonas aeruginosa Type III Secretion System Translocon

Kundracik, Emma Caitlin 26 May 2023 (has links)
No description available.
3

Étude de la toxicité de DspA, protéine essentielle au pouvoir pathogène d’Erwinia amylovora, chez la levure Saccharomyces cerevisiae / Analysis of the toxicity of DspA, a protein essential for the pathogenicity of Erwinia amylovora, in the yeast Saccharomyces cerevisiae

Siamer, Sabrina 01 March 2013 (has links)
La bactérie phytopathogène E. amylovora, est l'agent responsable du Feu bactérien des Spiraeoideae (pommier, poirier, pyracantha), une maladie caractérisée par l'apparition de symptômes nécrotiques des tissus infectés. Le pouvoir pathogène d’E. amylovora repose entre autre sur un système de sécrétion de type III (SSTT) qui permet la sécrétion et l'injection d'effecteurs dans la cellule hôte végétale. Parmi les protéines injectées par le T3SS d'E. amylovora, DspA est essentielle au pouvoir pathogène de la bactérie puisqu’un mutant dspA est non pathogène sur plante (Gaudriault et al., 1997). Le rôle de DspA est dual, d’une part, l’expression de dspA est suffisante pour provoquer des symptômes nécrotiques sur plante et une toxicité chez la levure, d’autre part, DspA est impliquée dans la suppression des réactions de défense telles que la déposition de callose (Degrave et al., 2008; Boureau et al., 2006; Oh et al., 2007; DebRoy et al., 2004). DspA appartient à la famille des effecteurs AvrE qui sont répandus chez les bactéries phytopathogènes et semblent posséder une fonction similaire. Cependant, peu de connaissance existe sur la structure ainsi que la fonction de DspA. L'objectif de ce travail de thèse était de déterminer les domaines ou motifs importants pour la fonction de DspA. Pour cela nous avons choisi d'effectuer une analyse in silico et fonctionnelle de la protéine DspA. L'analyse in silico révèle la présence d'un domaine bêta-propeller au sein de la protéine DspA ainsi que de tous les homologues analysés. De plus, l'analyse fonctionnelle indique que ce domaine est important pour la structure et la fonction de DspA. Dans un second temps, j'ai étudié le mécanisme d'action de DspA dans la levure Saccharomyces cerevisiae. J'ai pu mettre en évidence que l'expression de dspA chez la levure induit un arrêt de croissance et une forte altération du trafic cellulaire. L'étude de mutants de levure suppresseurs de la toxicité de DspA, effectuée avant mon arrivée au laboratoire, montre que les suppresseurs les plus forts sont affectés dans la voie de biosynthèse des sphingolipides, je me suis donc plus particulièrement intéressée au rôle des sphingolipides dans la toxicité générée par DspA. Nos résultats montrent que DspA inhibe la biosynthèse des sphingolipides indirectement via les régulateurs négatifs de la voie, les protéines Orms. / Erwinia amylovora is the causative agent of fire blight of Spiraeoideae (apple, pear, pyracantha), a disease characterized by the apparition of necrotic symptoms on infected tissues. The pathogenicity of E. amylovora relies on a functional type III secretion system (T3SS) that allows secretion and injection of effector proteins into the host plant cell. Among these effector proteins injected by the T3SS of E. amylovora, DspA is essential to the bacteria disease process since a dspA mutant is nonpathogenic on plants (Gaudriault et al., 1997). DspA has a dual role; on the one hand dspA expression is sufficient to induce cell death on plants and toxicity on yeast, on the other hand, DspA is involved on suppression of defense reactions like callose deposition (Degrave et al., 2008; Boureau et al., 2006; Oh et al., 2007; DebRoy et al., 2004). DspA belongs to the AvrE familly of type III effectors which are widespread on phytopathogenic bacteria and likely possess a similar function. However, the structure and function of DspA remain unknown. In the first part of my thesis, I attempted to characterize domains or motifs important for the function of DspA. We performed an in silico and a functional analysis of the DspA protein. In silico analysis predicted a bêta-propeller domain in DspA and all the analysed effectors. In the second part of my thesis, I analysed the mechanism of function of DspA in the yeast Saccharomyces cerevisiae. Results showed that expression of dspA in yeast inhibits cell growth and alters the actin cytoskeleton and endocytosis. Screening of the Euroscarf library for mutants resistant to DspA induced toxicity revealed that mutants impaired in the sphingolipid biosynthetic pathway are the best suppressors. Based on this results, I attempted to determine the role of sphingolipids in the toxicity induced by DspA. Results showed that DspA inhibits indirectly the sphingolipid biosynthetic pathway via the negative regulators, Orm proteins.

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