Structural study of ExsA, the regulator of Type III Secretion System of Pseudomonas aeruginosa

Xiao, Yi

06 June 2013

The Type III secretion system (T3SS) of Pseudomonas aeruginosa uses a needle-like protein apparatus to detect eukaryotic host cells and translocate effectors directly into the host cell. The effectors are also known as cytotoxins, which cause disruption of a series of signaling events in the host cell, facilitating the infection by P. aeruginosa. As the T3SS is antigenic and the expression of T3SS is energy-consuming, it is highly regulated where several regulatory proteins interact with each other and control the expression of T3SS genes. Among these proteins, ExsA, the master regulator of T3SS in P. aeruginosa, is of great importance as it is a transcriptional activator that activates the expression of all T3SS genes. Also, as ExsA belongs to the AraC protein family which only exists in bacteria and fungi, it makes an excellent potential target for drugs against P. aeruginosa related infections. With a combination of molecular biology tools and structural biology methods, we solved the N-terminal domain structure of the ExsA protein in P. aeruginosa. The model of the ExsA N-terminal domain has enriched our knowledge about ExsA dimerization and can serve as the base for mapping the interaction interfaces on ExsA and ExsD. Further, we have found two homologues of ExsA by structural alignment, which share a lot of similarities and have conserved amino acid residues that are important for ligand binding. The fact that both of these two proteins are regulated by small ligands rather than proteins also raises the possibility that ExsA may have a second regulatory mechanism under which ExsA is regulated by a small ligand, which so far has not been observed or reported by researchers. In order to map the binding site of ExsA on its anti-activator ExsD, we removed the coiled-coil region (amino acid residue 138-202, the potential binding site) of ExsD, based on the  structure of ExsD. We surprisingly found that the ExsD variant without the coiled-coil region readily inhibits ExsA-dependent in vitro transcription. This result rules out other possibilities and makes us focus on the N-terminus and adjacent regions of ExsD for the interface with ExsA. Moreover, in order to gain a comprehensive understanding of the dynamics of the regulation of T3SS in P. aeruginosa, we have begun to build a mathematical model of the T3SS regulatory pathways. We are measuring the cellular concentrations of T3SS regulatory proteins with quantitative molecular biology methods such as quantitative western blot, quantitative PCR and quantitative mass spectrometry. We have determined the cellular level of ExsA and ExsD proteins under different physiological conditions, and found that some factors such as temperature have a significant impact on the levels of ExsA and ExsD. This study has thus unveiled some unknown features of the T3SS of P. aeruginosa and its related infections. / Master of Science

Pseudomonas aeruginosa

Type III secretion system

ExsA

structure

crystallization

ExsD

ExsACDE pathway

Biofilm and Virulence Regulation in the Cystic Fibrosis-Associated Pathogens, Stenotrophomonas maltophilia and Pseudomonas aeruginosa

Layla Ramos-Hegazy (8771495)

30 April 2020

Cystic fibrosis (CF) is a fatal, incurable genetic disease that affects over 30,000 people in the United States alone. People with this disease have a homozygous mutation in the cystic fibrosis transmembrane conductance regulator (CFTR) which causes defects in chloride transport and leads to build up of mucus in the lungs and disruption of function in various organs. CF patients often suffer from chronic bacterial infections within the lungs, wherein the bacteria persist as a biofilm, leading to poor prognosis. Two of these pathogens, <i>Stenotrophomonas maltophilia</i> and <i>Pseudomonas aeruginosa</i>, are often found in the lungs of patients with CF and are an increasing medical concerns due to their intrinsic antimicrobial resistance. Both species can readily form biofilms on biotic and abiotic surfaces such as intravascular devices, glass, plastic, and host tissue. Biofilm formation starts with bacterial attachment to a surface and/or adjacent cells, initiating the acute infection stage. Chronic, long-term infection involves subsequent or concurrent altered genetic regulation, including a downregulation of virulence factors, resulting in the bacteria committing to a sessile lifestyle, markedly different from the planktonic one. Many of these genetic switches from an acute to chronic lifestyle are due to pressures from the host immune system and lead to permanently mutated strains, most likely an adaptive strategy to evade host immune responses. Biofilms are extremely problematic in a clinical setting because they lead to nosocomial infections and persist inside the host causing long-term chronic infections due to their heightened tolerance to almost all antibiotics. Understanding the genetic networks governing biofilm initiation and maintenance would greatly reduce consequences for CF and other biofilm-related infections and could lead to the development of treatments and cures for affected patients. This study showed that in<i> S. maltophilia</i>, isogenic deletion of phosphoglycerate mutase (<i>gpmA</i>) and two chaperone-usher pilin subunits, <i>S. maltophilia</i> fimbrae-1 (<i>smf-1</i>) and<i> cblA</i>, lead to defects in attachment on abiotic surfaces and cystic fibrosis derived bronchial epithelial cells (CFBE). Furthermore, Δ<i>smf-1</i> and Δ<i>cblA</i> showed defects in long-term biofilm formation, mimicking that of a chronic infection lifestyle, on abiotic surfaces and CFBE as well as stimulating less of an immune response through TNF-α production. This study also showed that in <i>P. aeruginosa</i>, the Type III secretion system (T3SS), an important virulence factor activated during the acute stage of infection, is downregulated when <i>polB</i>, a stress-induced alternate DNA polymerase, is overexpressed. This downregulation is due to post-transcriptional inhibition of the master regulatory protein, ExsA. Taken together, this project highlights important genes involved in the acute and chronic infection lifestyle and biofilm formation in <i>S. maltophilia</i> and genetic switches during the acute infection lifestyle in <i>P. aeruginosa</i>.

Microbiology

Molecular Biology

Microbial Genetics

biofilm

stenotrophomonas maltophilia

pseudomonas aeruginosa

pili

type iii secretion system

phosphoglycerate mutase

O papel de transferência horizontal de genes na história evolutiva de duas classes de genes em bactérias / The role of horizontal gene transfer in the evolutionary history of two bacterial gene classes

Rangel, Luiz Thibério Lira Diniz

10 August 2017

A Transferência Horizontal de Genes (THG) é um dos principais mecanismos de evolução bacterianos, impactando a evolução de praticamente todas famílias gênicas. Neste trabalho identificamos e avaliamos padrões de possíveis transferências horizontais de genes pertencentes a duas classes funcionais de dois níveis taxonômicos distintos. Caracterizamos a ocorrência e evolução de 45 genes importantes para a fixação de N2 em 479 genomas de Proteobacteria. Identificamos cinco potenciais aquisições de genes ligados a fixação de N2 por linhagens de Proteobacteria, as quais foram identificadas consistentemente em 36 dos genes analisados. Realizamos predições de transferências horizontais dos 45 entre todos os 479 genomas de Proteobacteria e identificamos possíveis enriquecimentos de THG, provavelmente ligados à sinais filogenéticos e ecológicos. Desenvolvemos um pipeline para identificação semi-automática de efetores do Sistema Secretor do Tipo III em Aeromonas, o qual reportou 21 famílias de potenciais efetores presentes em 105 genomas. Entre os 21 efetores identificados 17 foram descritos pela 1º vez em Aeromonas, corroborando a sensibilidade de nosso pipeline. Com o auxílio de nossos colaboradores foram realizados testes de citotoxidade para efetores identificados in silico, e apenas quatro não inibiram o crescimento de Saccharomyces cerevisiae. Por fim, desenvolvemos um método para agrupamento de famílias gênicas com histórias evolutivas similares que não requer a reconstrução de árvores filogenéticas, aumentando a eficiência computacional. Aplicamos o método desenvolvido para reconstrução da filogenia de Aeromonas, o qual mostrou-se compatível com dados presentes na literatura. / Horizontal Gene Transfer (HGT) is one of main mechanisms of bacterial evolution, affecting virtually all gene families. In this document we identified and assessed putative horizontal transfers of genes from two functional classes from two distinct taxonomic levels. We characterized the distribution and evolution of 45 genes important to N2 fixation among 479 Proteobacteria genomes. We identified five potential distinct acquisitions of such genes by Proteobacteria lineages. The distinct origins are consistently identified in 36 out of the 45 assessed genes. We computed possible horizontal transfers of the 45 genes among the 479 Proteobacteria genomes, and we identified enrichments of HGT, likely related to phylogenetic and ecological signals. We developed a semi-automated pipeline to identify effectors of the Type III Secretion System within Aeromonas, which reported 21 putative effector families distributed among 105 genomes. Among the 21 likely effectors 17 have been described in Aeromonas for the first time, highlighting the sensibility of our pipeline. Our colaborators performed cytotoxicity tests for the 21 likely effector families identified by in silico analysis, and only four did not inhibited Saccharomyces cerevisiae growth. Lastly, we developed a method to cluster gene families according to shared evolutionary history, without the requirement of phylogenetic tree reconstruction, increasing computational efficiency. We applied this proposed method during Aeromonas phylogenetic reconstruction, and it showed up compatible with data available on the literature.

Filogenômica

Fixação de nitrogênio

Horizontal gene transfer

Nitrogen fixation

Phylogenomics

Sistema secretor do tipo III

Transferência horizontal de genes

Type III secretion system

Structural studies of the inner membrane ring of the bacterial type III secretion system

McDowell, Melanie A.

January 2012

Shigella flexneri attacks cells of the intestinal tract, causing over 1 million deaths annually from bacterial dysentery. A type III secretion system (T3SS) initiates the host-pathogen interaction and transports virulence factors directly into host cells via a needle complex (NC) comprising an extracellular needle and membrane-spanning basal body. Rings formed by the single-pass membrane proteins MxiG and MxiJ are arranged concentrically within the inner membrane ring (IMR) of the NC. The Neterminal domain of MxiG (MxiG-N) is the predominant IMR cytoplasmic structure, however it was structurally and functionally uncharacterised. Determination of the solution structure of MxiG-N in this study revealed it to be a forkhead associated (FHA) domain, although subsequent analyses of conserved residues suggested it does not have the canonical role in cell-signalling via phospho-threonine recognition. Subsequent positioning of the structure in the electron microscopy (EM) density for the S. flexneri NC supported models with 24-fold symmetry in the IMR. Both MxiG and MxiJ also have significant periplasmic domains, which were purified to homogeneity in this study, facilitating preliminary characterisation of their structures and intermolecular interactions. In addition, the entire IMR within the context of intact basal bodies was isolated and visualised in vitro by EM. The essential function of MxiG-N could be to localise the putative cytoplasmic ring (Cering) at the base of the T3SS. Although absolutely required for secretion, the Csring component, Spa33, was structurally uncharacterised. The crystal structure of the Cvterminal domain of Spa33 (Spa33-C) was determined in this study, showing an intertwined dimer that aligned with homologous structures and exhibited a novel interaction with the N-terminus of the ATPase regulator, MxiN. Subsequently, Spa33-C was identified as an altemative translation product of spa33 that formed a 2: 1 complex with Spa33 in vitro. This complex oligomerised further, demonstrating for the first time that Spa33 has the propensity to form the ordered, high molecular weight assemblies that would be required for C-ring formation in S. flexneri.

571.4

Etudes structurale et fonctionnelle de protéines impliquées dans la virulence chez S. pneumoniae et P. aeruginosa / Fonctional and structural analysis of proteins implicated in the pathogenesis of P. aeruginosa and S. pneumoniae

Izoré, Thierry

10 October 2011

Cette thèse est composée de deux parties : Le première partie rend compte de l'étude structurale de la protéine RrgA. RrgA est associée au pilus du pathogène Streptococcus pneumoniae et participe aux premières étapes de colonisation chez l'hôte en se liant à plusieurs composés de la Matrice Extra Cellulaire. Nous avons résolu la structure de cette protéine à 1.9 Å par cristallographie aux rayons-X. RrgA possède une structure allongée formée de quatre domaines alignés d'origine eucaryote et procaryote. En effet, trois domaines ayant des similarités structurales avec les IgG et le domaine Cna-B semblent servir de piédestal pour orienter et présenter le domaine fonctionnel de type Intégrine. Nous avons confirmé la formation de deux ponts isopeptidiques stabilisateurs par spectrométrie de masse. De plus, le domaine intégrine possède deux insertions particulières dont la présence pourrait être impliquée dans la reconnaissance des divers substrats par RrgA. La deuxième partie de cette thèse est axée sur l'étude structurale du complexe ATPase et de ExsB, la pilotine présumée du système de sécrétion de type III chez Pseudomonas aeruginosa, bactérie opportuniste et jouant un rôle majeur dans l'infection des patients atteints de mucoviscidose. Pour la première fois, nous avons mis au point un protocole d'expression et de purification sous forme soluble de l'ATPase PscN en complexe avec une protéine partenaire, PscL. Des cristaux de ce complexe ont été obtenus au robot du PSB. Par ailleurs, nous avons confirmé l'expression de la lipoprotéine ExsB chez P. aeruginosa que nous avons localisée au sein de la membrane externe. De plus, nous avons résolu la structure de cette protéine qui présente un nouveau repliement et qui établie les bases structurales pour l'étude des pilotines pour tous les systèmes de sécrétion de type III de la famille Ysc. / This manuscript is made up of two parts The first part describes the structural study of RrgA from Streptococcus pneumoniae. This protein is a pilus-associated adhesin that is able to bind to several components of the Extra Cellular Matrix and thus, participates in the first steps of host colonization. We solved the structure of RrgA to 1.9 Å by X-Ray crystallography. We showed that RrgA folds into an elongated 4-domain structure, and these domains display both eukaryotic and prokaryotic origins. Actually, three out of the four domains are reminiscent of IgG and Cna-B structures and act like stalks to orient and display the large Integrin-like domain. We confirmed the presence of two isopeptide bonds by mass spectrometry and hypothesised that the two inserted arms in the integrin domain could explain the wide variety of substrates RrgA can bind. The second part of this manuscript focuses on the structural studies of the ATPase complex as well as ExsB, the putative pilotin of the type III secretion system from Pseudomonas aeruginosa. This bacterium is a major threat in hospital-acquired infections and the main pathogen found in cystic-fibrosis suffering patients. For the first time we were able to express and purify the ATPase PscN in complex with its partner PscL. Crystallization trials led to a very promising condition that is being refined. Moreover, we confirmed expression of the lipoprotein ExsB in P. aeruginosa that we localised in the outer membrane. To have a better understanding of this protein, we also solved its high-resolution structure that displays a novel fold and our study paves the way for coming studies concerning pilotins.

Cristallographie aux rayons x

Système de sécrétion de type III

Pilus

Pilotine

X-Ray scattering

Type III secretion system

Pilus

Pilotin

570

Régulation de l'adaptation de la bactérie Pseudomonas aeruginosa à son hôte : implication des métabolites du tryptophane / Regulation of the adaptation of Pseudomonas aeruginosa to his host : involvement of tryptophan metabolites.

Chaker, Hichem

07 March 2012

P. aeruginosa est un pathogène opportuniste capable d'infecter un large spectre d'hôtes. Elle possède un vaste arsenal de facteurs de virulence. Le système de sécrétion de type III (SSTT) est un facteur de virulence majeur dont la régulation est complexe pour permettre une adaptation la plus précise possible de la bactérie au cours de l'infection. Nous nous sommes intéressés à déterminer le rôle potentiel de nouveaux acteurs de l'adaptation de P.aeruginosa au cours de l'infection. La porine OprF qui représente la protéine la plus abondante de la membrane externe de P. aeruginosa lui permettrait d'évaluer l'état d'activation du système immunitaire de son hôte afin d'adapter sa virulence. Chez P. aeruginosa, le tryptophane est le précurseur des kynurenines qui sont également produites par l'hôte à partir du tryptophane et qui, dans ce dernier contexte, sont des immunomodulateurs. Peu ou pas d'études ont été réalisées pour mettre en œuvre un éventuel rôle d'immunomodulation ou dans la virulence des kynurénines bactériennes. Dans un premier temps, nous nous sommes intéressés à un signal anciennement découvert au laboratoire et qui réprime l'expression du SSTT à haute densité bactérienne. Nous avons montré que ce signal exerce une régulation post-transcriptionnelle en plus d'une inhibition de la transcription des gènes du SSTT. Le métabolisme du tryptophane et de l'anthranilate semble être au cœur de ce processus de régulation. En inactivant des voies du catabolisme du tryptophane, nous avons montré que la production de ce signal dépend partiellement de la voie des kynurénines mais ne dépend pas ni des voies classiques du quorum sensing ni de l'opéron phnAB, impliqué dans la synthèse de l'anthranilate. Cependant, la voie des phénazines pourrait être impliquée dans la production de ce signal. Par CLHP couplée à la spectrométrie de masse, nous avons pu séparer des espèces moléculaires réprimant le SSTT et qui sont contenues dans ce signal, mais l'identification précise nécessite plus d'investigations. Dans un second temps, nous nous sommes intéressés aux kynurénines produites par la bactérie. Nous avons confirmé que P. aeruginosa produit des kynurénines et le gène kynA est le gène clé de la voie de synthèse de ces métabolites. En utilisant des fusions transcriptionnnelles, nous avons montré que le tryptophane et la kynurénine régulent positivement la production des kynurénines en agissant sur l'expression des gènes clés. D'autres parts, nous avons remarqué que la bactérie module l'activité de la voie métabolique des kynurénines issue du tryptophane en fonction de son état de croissance. Nous avons montré qu'au cours du dialogue interrègne bactérie/hôte, la voie des kynurénines de P. aeruginosa est stimulée par certains composants du système immunitaire. Grâce à un modèle d'infection pulmonaire aiguë, nous avons prouvé que les kynurénines produites par la bactérie sont importantes pour sa virulence. Selon notre hypothèse les kynurénines pourraient avoir une action sur la réponse immune, mais cela reste à déterminer. Dans un troisième temps, nous nous somme focalisés sur la porine OprF. Nous avons montré que la mutation ∆oprF est à l'origine d'une altération de la production mais vraisemblablement pas de la sécrétion des exotoxines du SSTT. Un ligand connu d'OprF, l'interféron gamma, module la voie des kynurénines. OprF pourrait donc avoir un rôle central dans les différents aspects de la régulation de la virulence. Nous avons donc produit des anticorps monoclonaux anti-OprF. Ces derniers se sont révélés capables de reconnaître spécifiquement la protéine OprF. Afin de vérifier l'efficacité de ces anticorps, des expériences de neutralisation de la bactérie in vitro puis in vivo seront réalisées. Mots clés : Pseudomonas aeruginosa, Système de Sécrétion de Type III, régulation, catabolisme du tryptophane, kynurénines, OprF. / P. aeruginosa is an opportunistic pathogen capable of infecting a wide host range. It possesses a large arsenal of virulence factors. The type III secretion system (TTSS) is a major virulence factor whose regulation is complex to allow the most accurate adaptation of the bacteria during infection. We were interested to determine the potential role of new actors in the adaptation of P. aeruginosa during infection. OprF represents the most abundant protein of the outer membrane of P. aeruginosa. This protein allows bacteria to assess the activation status of the host's immune system to adapt its virulence. In P. aeruginosa, tryptophan is the precursor of kynurenines that are also produced by the host from tryptophan and in the latter context, are immunomodulators. Little or no studies have been done to determine a possible role of bacterial kynurenines in immune modulation or virulence. Initially, we were interested in a signal previously discovered in the laboratory and which suppresses the expression of TTSS at high bacterial density. We have shown that this signal exerts a post-transcriptional regulation in addition to inhibition of TTSS genes transcription. The metabolism of tryptophan and anthranilate appears to be at the heart of this regulatory process. By inactivating pathways of tryptophan catabolism, we showed that production of this signal depends partly on the kynurenines pathway but does not depend neither classical ways of quorum sensing or phnAB operon involved in the synthesis of anthranilate. However, the phenazines pathway could be involved in the production of this signal. By HPLC coupled with mass spectrometry, we were able to separate molecular species suppressing the TTSS and which are contained in this signal, but accurate identification requires further investigation. In a second time, we were interested to kynurenines produced by the bacterium. We confirmed that P. aeruginosa produces kynurenines and KynA is the key gene in the synthesis of these metabolites. We showed that tryptophan and kynurenine upregulate the production of kynurenines by acting on the expression of key genes. Other shares, we found that the bacterium modulates the activity of the kynurenines pathway depending on its state of growth. We showed that during the dialogue bacteria / host, the pathway of kynurenines in P. aeruginosa is stimulated by certain immune system components. With an acute lung infection model, we proved that kynurenines produced by the bacterium are important to its virulence. We hypothesized that the kynurenines could have an effect on the immune response, but this remains to be determined. In a third time, we focused on the protein OprF. We showed that mutation ΔoprF is causing an alteration in production but probably not the secretion of TTSS exotoxins. One known ligand of OprF is the gamma interferon. It modulates the pathway of kynurenines. OprF could therefore have a central role in various aspects of the regulation of virulence. So, we produced monoclonal anti-OprF which recognizes specifically the protein OprF. To verify the effectiveness of these antibodies, neutralization experiments of the bacteria in vitro and in vivo will be realized.

Pseudomonas aeruginosa

Système de sécrétion de type trois

Kynurénines

Réponse immunitaire

Tryptophane

Pseudomonas aeruginosa

Type III secretion system

Kynurenine,tryptophan

O papel de transferência horizontal de genes na história evolutiva de duas classes de genes em bactérias / The role of horizontal gene transfer in the evolutionary history of two bacterial gene classes

Luiz Thibério Lira Diniz Rangel

10 August 2017

A Transferência Horizontal de Genes (THG) é um dos principais mecanismos de evolução bacterianos, impactando a evolução de praticamente todas famílias gênicas. Neste trabalho identificamos e avaliamos padrões de possíveis transferências horizontais de genes pertencentes a duas classes funcionais de dois níveis taxonômicos distintos. Caracterizamos a ocorrência e evolução de 45 genes importantes para a fixação de N2 em 479 genomas de Proteobacteria. Identificamos cinco potenciais aquisições de genes ligados a fixação de N2 por linhagens de Proteobacteria, as quais foram identificadas consistentemente em 36 dos genes analisados. Realizamos predições de transferências horizontais dos 45 entre todos os 479 genomas de Proteobacteria e identificamos possíveis enriquecimentos de THG, provavelmente ligados à sinais filogenéticos e ecológicos. Desenvolvemos um pipeline para identificação semi-automática de efetores do Sistema Secretor do Tipo III em Aeromonas, o qual reportou 21 famílias de potenciais efetores presentes em 105 genomas. Entre os 21 efetores identificados 17 foram descritos pela 1º vez em Aeromonas, corroborando a sensibilidade de nosso pipeline. Com o auxílio de nossos colaboradores foram realizados testes de citotoxidade para efetores identificados in silico, e apenas quatro não inibiram o crescimento de Saccharomyces cerevisiae. Por fim, desenvolvemos um método para agrupamento de famílias gênicas com histórias evolutivas similares que não requer a reconstrução de árvores filogenéticas, aumentando a eficiência computacional. Aplicamos o método desenvolvido para reconstrução da filogenia de Aeromonas, o qual mostrou-se compatível com dados presentes na literatura. / Horizontal Gene Transfer (HGT) is one of main mechanisms of bacterial evolution, affecting virtually all gene families. In this document we identified and assessed putative horizontal transfers of genes from two functional classes from two distinct taxonomic levels. We characterized the distribution and evolution of 45 genes important to N2 fixation among 479 Proteobacteria genomes. We identified five potential distinct acquisitions of such genes by Proteobacteria lineages. The distinct origins are consistently identified in 36 out of the 45 assessed genes. We computed possible horizontal transfers of the 45 genes among the 479 Proteobacteria genomes, and we identified enrichments of HGT, likely related to phylogenetic and ecological signals. We developed a semi-automated pipeline to identify effectors of the Type III Secretion System within Aeromonas, which reported 21 putative effector families distributed among 105 genomes. Among the 21 likely effectors 17 have been described in Aeromonas for the first time, highlighting the sensibility of our pipeline. Our colaborators performed cytotoxicity tests for the 21 likely effector families identified by in silico analysis, and only four did not inhibited Saccharomyces cerevisiae growth. Lastly, we developed a method to cluster gene families according to shared evolutionary history, without the requirement of phylogenetic tree reconstruction, increasing computational efficiency. We applied this proposed method during Aeromonas phylogenetic reconstruction, and it showed up compatible with data available on the literature.

Filogenômica

Fixação de nitrogênio

Sistema secretor do tipo III

Transferência horizontal de genes

Horizontal gene transfer

Nitrogen fixation

Phylogenomics

Type III secretion system

Rôle de Paa dans la pathogénicité des Escherichia coli attachants et effaçants (AEEC)

Destable, Élodie

January 2008

Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal.

Escherichia coli entéropathogène

Escherichia coli entérohémorragique

Lésions attachantes et effaçantes

Système de sécrétion de type III

Paa

Enteropathogenic Escherichia coli

Enterohemorragic Escherichia coli

Paa

Type III Secretion Mediated Translocation of Effector Exoenzymes by Pseudomonas aeruginosa / Injektion av gifter via typ III sekretionssystemet hos bakterien Pseudomonas aeruginosa

Sundin, Charlotta

January 2003

No description available.

Cell and molecular biology

Pseudomonas aeruginosa

type III secretion system

ExoS

ExoT

PcrV

PcrG

PopB

PopD

PopN

type IV pili

Cell- och molekylärbiologi

Cell and molecular biology

Cell- och molekylärbiologi

Rôle de Paa dans la pathogénicité des Escherichia coli attachants et effaçants (AEEC)

Destable, Élodie

January 2008

Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal

Escherichia coli entéropathogène

Escherichia coli entérohémorragique

Lésions attachantes et effaçantes

Système de sécrétion de type III

Paa

Enteropathogenic Escherichia coli

Enterohemorragic Escherichia coli

Paa