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101	Caractérisation moléculaire du système de recombinaison XerH/difH chez Campylobacter jejuni Benmohamed, Amal 08 1900 (has links) Chez les bactéries à chromosomes circulaires, le crossing-over introduit par la recombinaison homologue peut conduire à des échanges de chromatides soeurs. Des nombres impairs de ces échanges aboutissent à la dimérisation des deux chromatides nouvellement répliquées compromettant ainsi leur ségrégation. Par conséquent, la plupart des bactéries utilisent le système de recombinaison spécifique de site Xer pour convertir les dimères de chromosomes et de plasmides en monomères stables. Ce système comporte deux recombinases de la famille Tyrosine recombinase, XerC et XerD, agissant sur le site dif. Cependant, quelques ε-protéobactéries n’ont besoin que d'une seule recombinase XerH agissant sur un site difH. Il parait intéressant d’étudier le système de recombinaison XerH de Campylobacter jejuni, surtout que l'augmentation spectaculaire de l'incidence de campylobactériose est alarmante. Cette étude vise à mieux comprendre comment la protéine XerH catalyse la réaction de recombinaison au niveau du site difH en mettant en évidence les séquences indispensables pour la liaison et le clivage. Grâce à ces expériences, nous avons pu confirmer que XerH est capable de se lier à la séquence entière difH; XerH est capable de cliver les deux brins supérieurs et inférieurs de difH avec une réaction plus efficace au niveau du brin inférieur; les nucléotides conservés du site de liaison sont indispensables pour la réaction de liaison; la modification de la longueur de l’espaceur améliore la réaction de liaison et de clivage et les modifications apportées au site de clivage prédit ont aboli la réaction de liaison et affecté la réaction de clivage au niveau du brin supérieur et inférieur du site difH. Ces expériences aideront à comprendre comment la recombinase XerH/difH contrôle la résolution des dimères chromosomiques chez Campylobacter jejuni en identifiant les séquences et les facteurs indispensables pour qu’un certain système soit fiable. Notre étude représente un pas vers l’avant pour comprendre un mécanisme important chez un agent pathogène ayant un grand impact sur la santé publique. / In bacteria with circular chromosomes, cross-over induced by homologous recombination can lead to sister chromatid exchanges, odd numbers of these exchanges result in dimerization of the two newly replicated chromatids compromising their segregation. Therefore, most bacteria use the Xer site-specific recombination system to convert chromosomal and plasmid dimers into stable monomers. This system involves two recombinases of the Tyrosine recombinase family, XerC and XerD, acting at the dif site. However, some ε-proteobacteria require only one XerH recombinase acting on a difH site. It seems interesting to study the XerH recombination system of Campylobacter jejuni, especially since the dramatic increase in the incidence of campylobacteriosis is alarming. This study aims to better understand how the XerH protein catalyzes the recombination reaction at the difH site by identifying the sequences required for binding as well as the factors regulating this reaction. As a result of these experiments, we were able to confirm that XerH is able to bind to the entire difH sequence; it is able to cleave both the top and bottom strands of difH with a more efficient reaction at the bottom strand; The conserved nucleotides in the binding site are essential for the binding reaction, modification of the spacer length improves the binding and cleavage reaction, and modifications in the predicted cleavage site abolished the binding reaction and affected the cleavage reaction at both the top and bottom strands of the difH site.. These experiments will help to understand how the XerH/difH recombinase controls the resolution of chromosomal dimers in Campylobacter jejuni by identifying the essential sequences and factors required for a certain system to be reliable. Our study represents a step forward in understanding an important mechanism in a pathogen with great impact on public health. Recombinaison spécifique de site XerH XerC/XerD difH Tyrosine recombinases Campylobacter jejuni Site-specific recombination
102	Association of Polyphosphate (poly P) Kinases with Campylobacter jejuni Invasion and Survival in Human Epithelial Cells Pina-Mimbela, Ruby Melisa January 2013 (has links) No description available. Biochemistry Cellular Biology Microbiology Veterinary Services Campylobacter jejuni Poly P kinases invasion survival epithelial cells INT-407 cells
103	Understanding <i>Campylobacter jejuni</i> colonization and stress survival mechanisms: Role of Transducer Like Proteins (Tlps) and Polyphosphate kinases (PPKs) Chandrashekhar, Kshipra January 2014 (has links) No description available. Biomedical Research Veterinary Services Molecular Biology Microbiology
104	Membrane remodeling in epsilon proteobacteria and its impact on pathogenesis Cullen, Thomas Wilson 17 July 2012 (has links) Bacterial pathogens assemble complex surface structures in an attempt to circumvent host immune detection. A great example is the glycolipid known as lipopolysaccharide or lipooligosaccharide (LPS), the major surface molecule in nearly all gram-negative organisms. LPS is anchored to the bacterial cell surface by a anionic hydrophobic lipid known as lipid A, the major agonist of the mammalian TLR4-MD2 receptor and likely target for cationic antimicrobial peptides (CAMPs) secreted by host cells (i.e. defensins). In this work we investigate LPS modification machinery in related ε-proteobacteria, Helicobacter pylori and Campylobacter jejuni, two important human pathogens, and demonstrate that enzymes involved in LPS modification not only play a role in evasion of host defenses but also an unexpected role in bacterial locomotion. More specifically, we identify the enzyme responsible for 4'-dephosphorylation of H. pylori lipid A, LpxF. Demonstrating that lipid A depohsphorylation at the 1 and 4'-positions by LpxE and LpxF, respectively, are the primary mechanisms used by H. pylori for CAMP resistance, contribute to attenuated TRL4-MD2 activation and are required for colonization of a the gastric mucosa in murine host. Similarly in C. jejuni, we identify an enzyme, EptC, responsible for modification of lipid A at both the 1 and 4'-positions with phosphoethanolamine (pEtN), also required for CAMP resistance in this organism. Suprisingly, EptC was found to serve a dual role in modifying not only lipid A with pEtN but also the flagellar rod protein FlgG at residue Thr75, required for motility and efficient flagella production. This work links membrane biogenesis with flagella assembly, both shown to be required for colonization of a host and adds to a growing list of post-translational modifications found in prokaryotes. Understanding how pathogens evade immune detection, interphase with the surrounding environment and assemble major surface features is key in the development of novel treatments and vaccines. / text Lipid A Lipopolysaccharide Lipooligosacharide Antimicrobial peptide Membrane Post-translational modification Flagella Innate immunity Motility Toll-like receptor Pathogenesis Helicobacter pylori Campylobacter jejuni
105	Amoebae as Hosts and Vectors for Spread of Campylobacter jejuni Olofsson, Jenny January 2015 (has links) Campylobacter jejuni is the leading bacterial cause of gastrointestinal diarrheal disease in humans worldwide. This zoonotic pathogen has a complex epidemiology due to its presence in many different host organisms. The overall aim of this thesis was to explore the role of amoebae of the genus Acanthamoeba as an intermediate host and vector for survival and dissemination of C. jejuni. Earlier studies have shown that C. jejuni can enter, survive and replicate within Acanthamoebae spp. In this thesis, I have shown that C. jejuni actively invades Acanthamoeba polyphaga. Once inside, C. jejuni could survive within the amoebae by avoiding localization to degradative lysosomes. We also found that A. polyphaga could protect C. jejuni in acid environments with pH levels far below the range in which the bacterium normally survives. Furthermore, low pH triggered C. jejuni motility and invasion of A. polyphaga. In an applied study I found that A. polyphaga also could increase the survival of C. jejuni in milk and juice both at room temperature and at +4ºC, but not during heating to recommended pasteurization temperatures. In the last study we found that forty environmental C. jejuni isolates with low bacterial concentrations could be successfully enriched using the Acanthamoeba-Campylobacter coculture (ACC) method. Molecular genetic analysis using multilocus sequence typing (MLST) and sequencing of the flaA gene, showed no genetic changes during coculture. The results of this thesis have increased our knowledge on the mechanisms behind C. jejuni invasion and intracellular survival in amoebae of the genus Acanthamoeba. By protecting C. jejuni from acid environments, Acanthamoebae could serve as important reservoirs for C. jejuni e.g. during acid sanitation of chicken stables and possibly as vectors during passage through the stomach of host animals. Furthermore, Acanthamoeba spp. could serve as a vehicle and reservoir introducing and protecting C. jejuni in beverages such as milk and juice. Validation of the ACC method suggests that it is robust and could be used even in outbreak investigations where genetic fingerprints are compared between isolates. In conclusion, Acanthamoeba spp. are good candidates for being natural hosts and vectors of C. jejuni.
106	Estimating the contribution of different sources to the burden of human campylobacteriosis and salmonellosis : a thesis submitted in partial fulfilment of the requirements for the degree of Doctor of Philosophy at Massey University, Palmerston North, New Zealand Mullner, Petra January 2009 (has links) This thesis is concerned with the molecular epidemiology of Campylobacter jejuni and Salmonella in New Zealand and the development of source attribution tools for these pathogens. Although campylobacteriosis is the leading enteric zoonosis worldwide, the pathogen's complex epidemiology and di culties with existing typing schemes, have posed challenges for the control of this disease. The rst study of this thesis gives an overview of existing approaches to microbial risk assessment and source attribution, with particular respect to campylobacteriosis, and describes their advantages and shortcomings. Further, the chapter discusses phenoand genotyping techniques for Campylobacter spp. and the value of including microbial typing data in risk assessments. In the second study, data from a sentinel surveillance site in the Manawatu region was used to investigate the molecular epidemiology of human campylobacteriosis cases. This analysis revealed the presence of a dominant C. jejuni clone, namely sequence type (ST) 474, which accounted for 30.7 % of human cases in the study and identi ed risk factors for infection with ruminant and poultry associated STs. The third study investigated the link between C. jejuni in human cases and samples taken from poultry. By applying epidemiological and population genetic techniques this part of the thesis provided further evidence that poultry is a major contributor to human infection. In the fourth study an existing Bayesian source attribution model was modi ed and consecutively applied to New Zealand's major foodborne zoonoses: campylobacteriosis and salmonellosis. The majority (80 %) of human campylobacteriosis cases attributable to C. jejuni were estimated to have been acquired from poultry sources, whereas wildlife source were estimated to contribute only a minor proportion of cases. In the fth study the Salmonella dataset was descriptively analysed and a large proportion of human cases was found to be caused by `exotic' Salmonella types. In the nal study of this thesis four di erent genetic and epidemiological source attribution methodologies were applied to the same dataset in a comparative modelling framework. iv The studies in this thesis show that epidemiological studies combined with molecular tools and modeling can provide valuable risk-based tools to inform the surveillance and control of zoonotic pathogens. Methods from these studies may be readily applied to the control of other (food borne) zoonoses and provide new opportunities for epidemiological investigations and source attribution modelling of major pathogens. Campylobacter jejuni Salmonella molecular epidemiology human campylobaceriosis human salmonellosis New Zealand
107	Bacteriological and epidemiological studies of campylobacter spp. in Swedish broilers / Hansson, Ingrid, January 2007 (has links) (PDF) Diss. (sammanfattning) Uppsala : Sveriges lantbruksuniv., 2007. / Härtill 6 uppsatser.
108	Estudo sobre Campylobacter jejuni e Campylobacter coli em crianÃas da Ãrea urbana de Fortaleza, CearÃ/Brasil: IdentificaÃÃo genÃtica, inflamaÃÃo intestinal e impacto no estado nutricional / A study of Campylobacter jejuni and Campylobacter coli in children from urban Fortaleza, CearÃ, Brazil: Genetic identification, intestinal inflammation and impact on nutritional status. Josiane da Silva Quetz 12 January 2009 (has links) CoordenaÃÃo de AperfeiÃoamento de Pessoal de NÃvel Superior / Campylobacter jejuni e Campylobacter coli sÃo importantes agentes etiolÃgicos de doenÃa diarrÃica na populaÃÃo mundial. A infecÃÃo por Campylobacter sp. Ã usualmente identificada por cultivo microbiolÃgico que leva aproximadamente 72 horas para identificaÃÃo do gÃnero. Nosso objetivo principal foi pesquisar a prevalÃncia de C. jejuni e C. coli em populaÃÃo infantil, com idade entre 2-36 meses, da Ãrea urbana de Fortaleza/CE, Brasil, em estudo do tipo epidemiolÃgico observacional caso-controle, utilizando, como ferramenta de detecÃÃo, a reaÃÃo em cadeia da polimerase (PCR). Outros objetivos consistiram em: investigar o impacto nutricional da infecÃÃo (casos) ou da colonizaÃÃo (controles) por Campylobacter sp.; determinar a presenÃa de trÃs genes de virulÃncia para a toxina citoletal distensora (CDT) de C. jejuni e avaliar a ocorrÃncia de inflamaÃÃo intestinal nas infecÃÃes causadas por Campylobacter sp. A populaÃÃo estudada consistiu de 83 casos e 83 controles, sendo os casos, crianÃas com histÃrico de diarrÃia nos 14 dias pregressos Ã seleÃÃo para o estudo. Foram avaliados parÃmetros sÃcio-econÃmicos atravÃs de questionÃrio epidemiolÃgico. Medidas antropomÃtricas foram coletadas para determinaÃÃo de escores-z no intuito de avaliar o perfil nutricional das crianÃas. A detecÃÃo de Campylobacter nas amostras congeladas foi realizada por ensaio imuno-enzimÃtico (ELISA) e PCR. Pela PCR tambÃm investigamos a presenÃa dos genes cdtA, cdtB e cdtC da CDT de C. jejuni. A avaliaÃÃo da inflamaÃÃo intestinal foi realizada pela pesquisa de lactoferrina fecal (LFF), atravÃs de ELISA semiquantitativa. Foi detectado, por PCR, C. jejuni em 9,6% dos casos (8/83) e 7,2% dos controles (6/83). C. coli foi detectado em 6,0% dos casos (5/83) e 1,2% dos controles (1/83). Os genes cdtA, cdtB e cdtC foram encontrados em 50% das amostras hipO+ (7/14). Houve diferenÃa significativa (p<0,05) dos escores WAZ e WHZ entre casos e controles portadores de C. jejuni, sendo que casos portadores apresentaram mÃdia inferior de WAZ e WHZ, quando comparados com os controles portadores. No grupo Casos, os portadores de C. jejuni apresentavam valor mÃdio de WHZ inferior ao valor mÃdio apresentado pelos casos nÃo-portadores. Mais de 80,0% das crianÃas estudadas apresentaram inflamaÃÃo intestinal caracterizada por elevados nÃveis de LFF, independente da presenÃa de diarrÃia e Campylobacter sp. Em conclusÃo, nossos achados corroboram dados da literatura cientÃfica relacionados Ã prevalÃncia de C. jejuni e C. coli na populaÃÃo infantil, existÃncia de portadores assintomÃticos e associaÃÃo entre a detecÃÃo do microorganismo e desnutriÃÃo. AlÃm disso, nossos dados apontam para ocorrÃncia de variabilidade genÃtica dentre as cepas de C. jejuni detectadas na populaÃÃo estudada em relaÃÃo Ã presenÃa ou ausÃncia dos genes de CDT. / Campylobacter jejuni and Campylobacter coli are important etiologic agents of worldwide diarrheal disease. Campylobacter sp. infection is usually identified by a 72 hour microbiological culture that identifies the genus of the responsible organism. Our main goal was to investigate the prevalence of C. jejuni and C. coli in children, aged 2-36 months, from urban Fortaleza, CE, Brazil, in an observational epidemiological case-control study using, as a tool of detection, the polymerase chain reaction (PCR). Our other goals were to investigate the nutritional impact of infection (cases) or colonization (controls) for Campylobacter sp., to determine the presence of three virulence genes of C. jejuni cytolethal distending toxin (CDT), and to evaluate the occurrence of inflammation in intestinal infections caused by Campylobacter sp. The study population consisted of 83 cases and 83 controls, where the cases consisted of children with a history of diarrhea in the 14 days prior to selection for the study. We assessed socioeconomic parameters through an epidemiological questionnaire. Anthropometric measurements were collected to determine z-score parameters for assessing the nutritional status of the children. Detection of Campylobacter from frozen samples was performed by enzyme-linked immunosorbent assay (ELISA) and PCR. Also, using PCR technology, we investigated the presence of C. jejuni genes cdtA, cdtB and cdtC. Intestinal inflammation was assessed by semi-quantitative ELISA detection of fecal lactoferrin (LFF). PCR technology detected C. jejuni in 9.6% of the cases (8/83) and 7.2% of the controls (6/83), while C. coli was detected in 6.0% of the cases (5/83) and 1.2% of the controls (1/83). CDT genes were found in 50% of hipO+ samples (7/14). There was a significant difference (p <0.05) in the weight for age z-scores (WAZ) and the weight for height z-scores (WHZ) between case and control carriers of C. jejuni, where case carriers showed lower average WAZ and WHZ than control carriers. Moreover, in the case group, carriers of C. jejuni showed a lower WHZ average than that of non-carrier cases of C. jejuni. More than 80.0% of the children studied had intestinal inflammation characterized by high levels of LFF regardless of the presence of diarrhea and Campylobacter sp. In conclusion, our findings corroborate data in the scientific literature related to the prevalence of C. jejuni and C. coli in pediatric populations, the existence of asymptomatic carriers and an association between the detection of the microorganism and malnutrition. In addition, our data suggest a genetic variability among the strains of C. jejuni detected in the study population, related to presence o absence of CDT genes. DesnutriÃÃo InflamaÃÃo intestinal Toxina citoletal distensora Childhood diarrhea Campylobacter jejuni Campylobacter coli Malnutrition Intestinal inflammation Cytolethal distending toxin FARMACOLOGIA BIOQUIMICA E MOLECULAR
109	Quantitative Proteomics Analysis of Global Protein Expression in Campylobacter jejuni Cultured in Sublethal Concentrations of Bile Acids and Varying Temperatures Masanta, Wycliffe Omurwa 21 June 2017 (has links) No description available. 610 SWATH Campylobacter jejuni bile acids SILAC Proteome
110	The Structural Characterization of Two Prokaryotic Membrane Proteins: CfrA and ELIC Carswell, Casey January 2014 (has links) This thesis focuses on the structural and functional characterization of two integral membrane proteins; CfrA, an outer membrane TonB-dependent transporter (TBDT) from Campylobacter jejuni, and ELIC, a pentameric ligand-gated ion channel (pLGIC) from Erwinia Chrysanthemi. The spectroscopic characterization of CfrA revealed a fold consistent with the structural and biophysical properties observed for other TBDT. Both a homology model of CfrA and sequence alignments of CfrA with other ferric-enterobactin transporters suggested a unique mode of ligand binding, thus raising the possibility that C. jejuni can be specifically inhibited. To investigate the molecular determinates of binding to CfrA, I set out to crystallize CfrA. Hundreds of crystal trials led to crystals diffracting to 3.6 Å resolution, with a complete data set acquired at 5 Å resolution that led to a structural model of the CfrA β-barrel. In the second part of this thesis, I reconstituted ELIC into model membranes in order to test the role of intramembrane aromatic interactions in ELIC gating and lipid sensing. ELIC was reconstituted into both asolectin (aso-ELIC) and 1-palmitoyl-2-oleoyl phosphatidylcholine (PC-ELIC), membranes that stabilize the homologous nicotinic acetylcholine receptor (nAChR) in functional coupled versus non-functional uncoupled conformations, respectively. In both membrane environments, ELIC exhibits a mixed α-helical and β-sheet secondary structure, with a thermal denaturation intermediate between those of the nAChR and the close prokaryotic homolog, GLIC, in similar membranes. The data suggest that although ELIC has a decreased propensity to adopt an uncoupled conformation relative to the nAChR, its ability to undergo cysteamine-induced channel gating is sensitive to its lipid environment. The decreased propensity to uncouple may reflect an increased level of aromatics at the interface between the transmembrane α-helices, M1, M3, and M4. To test this hypothesis further, the level or aromatic residues at the M1, M3, and M4 interface in both GLIC and ELIC were varied, and in both cases the levels of intramembrane aromatic interactions correlated with the efficiency of coupling binding to gating. The data provide further evidence for a role of intramembrane aromatics in channel gating and in dictating the propensity of pentameric ligand-gated ion channels to adopt an uncoupled conformation. Membrane Protein Campylobacter jejuni Crystallization FTIR TonB Dependent Transporter CfrA ELIC Pentameric Ligand Gated Ion Channels Uncoupling structural characterization lipid sensitivity coupling aromatics Intramembrane aromatics

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