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Capacité de différents outils de typage moléculaire pour tracer Campylobacter jejuni et identifier l’origine de contamination en cas de campylobactériose / Ability of several genotyping methods to track Campylobacter jejuni and identify the source of human campylobacteriosisThépault, Amandine 10 January 2018 (has links)
Campylobacter est responsable de la zoonose bactérienne d’origine alimentaire la plus fréquemment reportée en Europe. Cette bactérie étant ubiquitaire, les sources et voies d’infection de l’Homme sont nombreuses. Cependant, afin de diminuer l’incidence de la maladie, il est nécessaire d’identifier les principaux réservoirs impliqués dans les infections humaines. Pour cela, nous avons dans un premier temps investigué la présence de Campylobacter dans trois réservoirs animaux (volaille, bovin, animaux de compagnie), ainsi que la diversité génétique des isolats de C. jejuni, en comparaison à celle d’isolats cliniques, à l’aide des techniques MLST (Multilocus sequence typing) et CGF (Comparative Genomic Fingerprinting). Afin d’identifier l’origine des campylobactérioses avec précision et de compenser notamment les limites techniques de la MLST, 15 marqueurs génétiques ont été sélectionnés comme marqueurs potentiellement indicateurs de l’hôte, après analyse de plus de 800 génomes de C. jejuni. Par la suite, la capacité de la MLST, la CGF40 et des 15 marqueurs à identifier l’origine des campylobactérioses a été étudiée. Ainsi, les 15 marqueurs se sont révélés être particulièrement performants pour l’attribution de sources des campylobactérioses, suivis ensuite par la MLST, tandis que la CGF40 est apparue comme étant peu adaptée. A partir des données MLST et des 15 marqueurs génétiques, une implication majoritaire des volailles et des bovins a été mis en évidence en France, tandis que les animaux de compagnie et l’environnement (comprenant eau et oiseaux sauvages) étaient faiblement impliqués. Ceci permet ainsi de renforcer les efforts de recherche relatifs aux moyens de lutte contre Campylobacter menés dans ces réservoirs. Ce travail a également permis de mettre en évidence de potentielles spécificités nationales dans la dynamique de transmission de C. jejuni à l’Homme. / Campylobacter is the causal agent of the main bacterial foodborne gastroenteritis in Europe. Since Campylobacter is frequently found in animal reservoirs, sources of human infection and transmission routes are various. However, to decrease the human burden of campylobacteriosis, it is essential to quantify the relative importance of the several reservoirs in human infections. For this purpose, we assessed the contamination of chicken, cattle and pets by Campylobacter spp., and further characterized C. jejuni isolates using MLST (Multilocus Sequence Typing) and CGF (Comparative Genomic Fingerprinting) in comparison with French clinical isolates. Then, in order to identify the most likely origin of campylobacteriosis cases in France and overcome MLST limitations in source attribution, about 800 C. jejuni genomes were analyzed which resulted in the identification of 15 genes as promising host segregating markers for source attribution. Subsequently, we assessed the ability of MLST, CGF40 and the 15 host-segregating markers to identify the most likely origin of campylobacteriosis. The 15 host-segregating markers were the most powerful in source attribution, followed by MLST, while CGF40 appeared to be not suitable for source attribution in our study. Based on MLST and the 15 markers, assignments of clinical cases emphasize the significant implication of chicken and ruminant in human infection by Campylobacter, while pets and the environment (including water and wild birds) were slightly involved, reinforcing the interest to focus control strategies on livestock. Finally this work highlights potential national variations in the transmission dynamics of C. jejuni to human.
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Array hybridization and whole genome sequencing as new typing tools for Legionella pneumophilaPetzold, Markus 14 February 2018 (has links)
To understand transmissible human diseases, disciplines such as epidemiology and the surveillance of affected cases are as essential as the knowledge about the pathogenesis and the course of a disease. Epidemiologists categorize and estimate factors for public health risks by taking metadata into account including geographic aspects, health and social states to study a disease transmission and prevent further cases. In addition, a focus on the causative agents itself is necessary in order to understand their ecology and hence their virulence traits. The causative agents for a severe pneumonia named Legionnaires’ disease (LD) are bacteria of the genus Legionella. The putative sources of LD infection are any aerosol-generating natural or man-made fresh water systems. Due to this ubiquitous distribution of legionellae, it is difficult to find the source of infection. Therefore, it is necessary to isolate the bacterium from the suffering patients to further characterize it in the laboratory and to compare the clinical isolates with isolates obtained from probable environmental sources.
The predominant species isolated from LD patients is Legionella pneumophila serogroup (Sg) 1. Intensive genotyping of L. pneumophila Sg1 isolates by using the current gold standard method, the sequence-based typing scheme (SBT), revealed limitations in the discrimination of several sequence types (ST) which could not be compensated for by additional phenotypic typing scheme. In practical terms, this means that several clones or STs are disproportional frequently found in both, patients and water systems, and cannot be distinguished by current methods. Therefore, a distorted picture of endemic and globally-spread clones is generated and current typing methods cannot add substantial information during the identification of the infectious source. The aim of this thesis is to develop and implement new typing methods for L. pneumophila isolates with a higher resolution than the gold standard methods.
A DNA-DNA hybridization based microarray was designed and equipped with probes that target specifically L. pneumophila virulence factors and genes that are involved in the biosynthesis of lipopolysaccharide structures. Legionellae can be subgrouped on the basis of their lipopolysaccharide structures. Here, the usually phenotypic characterization of L. pneumophila Sg1 is successfully transmitted to a DNA-based genotypic method. Furthermore, the detailed validation of the DNA-microarray revealed a higher discriminatory power in comparison to the gold standard methods. It enables previously indistinguishable clones to be subdivided, providing valuable information about probable sources of infection.
The second new tool for typing of L. pneumophila is based on the core genome of the bacteria. An extended SBT-scheme was extracted from the core genome and accordingly named core genome multilocus sequence typing (cgMLST). This genome wide gene-by-gene typing approach allows a high genomic resolution of L. pneumophila isolates by retaining epidemiological concordance. A major advantage of this genome-based method is the detection of large recombination events within the analysed genomes, which is, so far, reserved for whole genome sequencing. The population structure of legionellae is largely driven by recombination and horizontal gene transfer rather than by spontaneous mutations. Therefore, the detection of recombination events is essential for typing of L. pneumophila isolates. In addition, the cgMLST-scheme assigns a core genome sequence type to the analysed isolate and allows backwards compatibility with the current SBT-scheme.
Both methods proved to be fast, reliable and robust typing methods through their application during outbreak investigations. Furthermore, both systems are particularly suited as routine molecular typing tools for the surveillance of single cases. The raw data are verified and translated into uniform portable codes, which enables the easy transfer and comparison of results. The standardized and portable quality of the results of both methods enables the establishment of a curated global database. This qualifies both methods as potential new gold standard methods for the genotyping of L. pneumophila isolates.
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Systeme protéolytique de surface de "streptococcus thermophilus" : variabilité des capacités d'hydrolyse des caséines : caractérisation d'un nouveau système de transport de peptides / Proteolytic system of the surface of Streptococcus thermophilus : Variability in the capacity of casein hydrolysis : Characterization of a novel peptide transport systemJameh, Nawara 20 June 2012 (has links)
S. thermophilus est une bactérie largement employée dans la fabrication des produits laitiers. La capacité des souches de S. thermophilus à générer des peptides bioactifs à partir des caséines bovines a été étudiée. Dix souches exprimant différemment la protéase de surface, PrtS, ont été incubées en présence de la caséine [alpha]s1, [alpha]s2 ou [bêta]. Le nombre et le type de peptides libérés dépendent de la souche utilisée. Des peptides connus comme des peptides bioactifs ont été détectés : 13 peptides ont été générés à partir de la caséine [bêta], 5 peptides à partir de la caséine [alpha]s2 et 2 peptides à partir de la caséine [alpha]s1. L'utilisation de cette bactérie pour la production de tels peptides dans l'aliment requiert qu'elle en internalise le moins possible. Nous nous sommes intéressés aux systèmes de transport de peptides présents au sein de l'espèce S. thermophilus. Une collection de 22 souches de S. thermophilus a été choisie pour étudier la variabilité des systèmes de transport des peptides présents au sein de l'espèce. Toute d'abord, la proximité phylogénétique entre les souches a été évaluée par MLST, puis la variabilité génétique du système de transport des oligopeptides Ami et du transporteur de di- et tripeptides DtpT a été étudiée au sein de cette collection. Un cluster, composé de 4 gènes, annoté en tant que transporteur ABC de peptides et de nickel a été détecté au sein du génome de la souche LMD-9, et appelé Ots. Il est présent chez 9 sur 22 souches de S. thermophilus et est transcrit tout au long de la croissance en milieu M17. La caractérisation du système Ots suggère qu'il est impliqué dans l'internalisation de peptides de petites tailles / S. thermophilus is a widely used bacterium in the manufacture of dairy products. The capacity of S. thermophilus to generate bioactive peptides from bovine caseins was studied. Ten strains expressing different levels of the cell envelope protease, PrtS, were incubated with [alpha]s1-, [alpha]s2- or [beta]-casein. Number and type of peptides released were strain-dependent. Peptides known as bioactive peptides were detected: 13 peptides were generated from [beta]-casein, 5 peptides from [alpha]s2-casein and 2 peptides from [alpha]s1-casein. The use of this bacterium for the production of such peptides in the food products requires the least internalization of these peptides by this bacterium. We were interested in knowing the peptide transport system present in the species S. thermophilus. A collection of 22 strains of S. thermophilus was chosen to study the genetic variability of peptide transport systems present within the species. First of all, we evaluated the phylogenetic proximity between selected strains by MLST, and then the genetic variability of the transport system of oligopeptides Ami and di- and tripeptides transporter, DtpT were studied in this collection. A cluster consisting of four genes, annotated as ABC transporter of peptides and nickel was detected in the genome of strain LMD-9, and called Ots. It is present in 9 of 22 strains of S. thermophilus and is transcribed throughout the growth in M17 medium. The Ots system seems to be involved in the internalization of smaller sized peptides
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Identificação de linhagens atípicas de Yersinia spp. por métodos moleculares / Identification of atypical Yersinia strains by molecular methodsSouza, Roberto Antonio de 25 May 2009 (has links)
O gênero Yersinia compreende 12 espécies. Y. enterocolitica, Y. pseudotuberculosis e Y. pestis são patógenos de vários animais, incluindo os humanos. Y. aldovae, Y. bercovieri, Y. frederiksenii, Y. intermedia, Y. kristensenii, Y. aleksiciae, Y. mollaretti e Y. rhodei são encontradas sobretudo no meio ambiente e alimentos e consideradas, usualmente, como bactérias oportunistas não-patogênicas e Y. ruckeri é um importante patógeno de peixes. Usualmente, as linhagens de Yersinia são classificadas em espécies de acordo com suas características bioquímicas. O Laboratório Nacional de Referência em Yersinia spp. outras que Y. pestis recebeu mais de 700 linhagens que foram identificadas bioquimicamente. Entretanto, sete linhagens de Yersinia não puderam ser identificadas pelos testes bioquímicos convencionais em nenhuma das espécies até o momento conhecidas e, por esse motivo, foram denominadas Yersinia atípicas. Os objetivos desse trabalho foram identificar as linhagens atípicas de Yersinia spp. em espécies por técnicas moleculares como Enterobacterial Repetitive Intergenic Consensus PCR (ERIC-PCR), Eletroforese em Campo Pulsado (PFGE), sequenciamento do gene 16S rRNA e Multilocus Sequencing Typing (MLST) e definir dentre as metodologias empregadas a que mais contribui para a identificação precisa dessas linhagens. Foi estudado um total de 59 linhagens de Yersinia spp., sendo 52 linhagens representantes das diferentes espécies do gênero e sete as linhagens bioquimicamente atípicas de Yersinia. As técnicas de ERIC-PCR, sequenciamento do gene 16S rRNA e o MLST foram eficientes na identificação molecular do gênero Yersinia, uma vez que conseguiram reunir todas as espécies em ramos espécie-específicos, com exceção de algumas linhagens de Y. frederiksenii e Y. kristensenii. A técnica de PFGE, pelo contrário, não agrupou as linhagens estudadas em clusters espécie-específicos. Os dados de ERIC-PCR, sequenciamento do gene 16S rRNA e MLST, sugerem que as linhagens atípicas FCF 229 e FCF 231 pertençam à espécie Y. ruckeri. Os dados de ERIC-PCR e MLST sugerem que a linhagem atípica FCF 487 pertença à espécie Y. enterocolitica. Ademais, os dados de ERIC-PCR, sequenciamento do gene 16S rRNA e MLST sugerem que as linhagens atípicas FCF 216, FCF 465, FCF 457 e FCF 494 pertençam a espécie Y. massiliensis. Os resultados obtidos nesse trabalho fornecem dados importantes para a caracterização molecular de linhagens bioquimicamente atípicas de Yersinia e contribuem para uma melhor descrição do gênero quanto a sua diversidade e reforçam o MLST como uma técnica confiável e reprodutível a ser usada na identificação de bactérias pertencentes a esse gênero, sendo dentre as metodologias utilizadas nesse estudo a mais indicada para tipagem molecular de yersiniae. / The genus Yersinia comprises 12 species. Y. enterocolitica, Y. pseudotuberculosis and Y. pestis are pathogens of various animals, including humans. Y. aldovae, Y. bercovieri, Y. frederiksenii, Y. intermedia, Y. kristensenii, Y. aleksiciae, Y. mollaretti and Y. rohdei have been mostly found in the environment and food sources and are commonly considered to be opportunistic nonpathogenic bacteria and Y. ruckeri is an important fish pathogen. Usually, Yersinia strains are classified into species according to their biochemical characteristics. The Brazilian Reference Center on Yersinia spp. other than Y. pestis received more than 700 strains that were biochemically identified. However, seven strains that were typed as Yersinia could not be biochemically identified in any one of the currently known Yersinia species and for this reason they were named as atypical strains. The aims of this work were to identify into species the atypical Yersinia strains using molecular techniques as Enterobacterial Repetitive Intergenic Consensus PCR (ERIC-PCR), Pulsed Field Gel Electrophoresis (PFGE), 16S rRNA gene sequencing and Multilocus Sequencing Typing (MLST) and to define which methodology better contribute to the identification of those strains. A total of 59 Yersinia spp. strains were studied, being 52 representative strains of the defined Yersinia species and seven atypical Yersinia strains. ERIC-PCR, 16S rRNA gene sequencing and MLST were efficient in molecular identifying the genera Yersinia once they grouped the strains into species-specific clusters, with exception of some Y. frederiksenii and Y. kristensenii strains. However, PFGE was not capable to cluster the defined Yersinia strains into species-specific clusters. The data obtained by ERIC-PCR, 16S rRNA gene sequencing and MLST suggest that the atypical strains FCF 229 and FCF 231 belong to Y. ruckeri species. The data obtained by ERIC-PCR and MLST suggest that FCF 487 belong to the Y. enterocolitica species. Additionally, ERIC-PCR, 16S rRNA gene sequencing and MLST suggest that the atypical strains FCF 216, FCF 465, FCF 457 and FCF 494 belong to the Y. massiliensis species. The results obtained provide important data for the molecular characterization of biochemically atypical strains and contribute for a better description of the genera regardless its diversity. Furthermore, the results reinforce MLST as a trustful and reproducible technique to be used in the identification of bacteria of this genus, being among the methodologies studied the most recommended one to molecular type yersiniae.
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Análise do potencial patogênico, diversidade genotípica e perfil de resistência de linhagens de Shigella sonnei isoladas de 1983 a 2014 no Estado de São Paulo / Analysis of the potential pathogenic, genotypic diversity and resistance profile of Shigella sonnei strains isolated from 1983 to 2014 in the State of São PauloSeribelli, Amanda Aparecida 19 December 2016 (has links)
Shigella spp. está entre as quatro bactérias mais isoladas de fezes diarreicas no Brasil. No mundo cerca de 164,7 milhões de casos de shigelose ocorrem anualmente, sendo a maioria em países em desenvolvimento. O gênero Shigella spp. possui quatro espécies, sendo Shigella sonnei e Shigella flexneri as espécies mais frequentemente isoladas no Brasil e no mundo. O monitoramento de linhagens resistentes de Shigella spp. é essencial, pois este garante uma terapia eficiente quando necessária. Especificamente, a maioria dos estudos realizados com linhagens de S. sonnei no país verificaram apenas a ocorrência dessa e há poucos estudos que investigaram o potencial patogênico e a diversidade genotípica dessa espécie. Os objetivos desse projeto foram analisar o potencial patogênico, o perfil de resistência a antimicrobianos e a diversidade genotípica de linhagens de S. sonnei isoladas durante três décadas no Estado de São Paulo. No total foram caracterizadas 72 linhagens de S. sonnei isoladas de humanos, entre os anos de 1983 a 2014, quanto à presença de 12 genes de virulência por PCR, perfil de suscetibilidade frente a 16 antimicrobianos por disco difusão e tipagem molecular por Pulsed-field gel electrophoresis (PFGE), Enterobacterial repetitve intergenic consensus PCR (ERIC-PCR), Multiple-locus variable-number tandem-repeat analysis (MLVA) e 20 linhagens tipadas por Multi-locus sequence typing (MLST). Todas as linhagens apresentaram os genes de virulência ipaH, iuc e sigA. O gene ipaBCD foi encontrado em 14 (19%) linhagens, os genes ial e virF em 13 (18%) linhagens e o gene sen em sete (10%) linhagens. Os genes set1A, set1B, pic, sat e sepA não foram detectados. As mais altas taxas de resistência foram frente à sulfametoxazol-trimetoprim encontrada em 42 (58,3%) linhagens e frente à tetraciclina encontrada em 30 (41,6%) linhagens. Onze (15,5%) linhagens foram resistentes à ampicilina e piperacilina. Três (4,2%) linhagens foram resistentes à cefotaxima. Três (4,2%) linhagens foram resistentes ao cloranfenicol. Duas (2,8%) linhagens foram resistentes à ampicilina-sulbactam. Duas (2,8%) linhagens foram resistentes ao ácido nalidíxico. Uma (1,4%) linhagem foi resistente à amoxicilina-ácido clavulânico. Cinco (7%) linhagens foram multidroga resistentes (MDR). O dendrograma gerado pelo PFGE agrupou as 72 linhagens de S. sonnei em dois clusters designados PFGE-A e PFGE-B. O cluster PFGE-A agrupou 39 linhagens isoladas entre 1983-2014 com uma similaridade >=73,6% e mais especificamente 35 dessas linhagens apresentaram uma similaridade >=80,3%. O cluster PFGE-B agrupou 33 linhagens de S. sonnei isoladas entre 1984-2014 com uma similaridade >=74,7% e 27 dessas linhagens exibiram uma similaridade >=83,0%. Similarmente, o dendrograma gerado pelo ERIC-PCR agrupou as 72 linhagens de S. sonnei em dois clusters designados ERIC-A e ERIC-B. O cluster ERIC-A agrupou 37 linhagens isoladas entre 1983-2014 que exibiram uma similaridade >=78,8% e mais especificamente 36 dessas linhagens apresentaram uma similaridade >=82,3%. O cluster ERIC-B agrupou 34 linhagens de S. sonnei isoladas entre 1987-2014 que exibiram uma similaridade >=84,0%. Também por MLVA as linhagens foram agrupadas em dois clusters designados MLVA-A e MLVA-B. O cluster MLVA-A agrupou 31 linhagens isoladas entre 1983-2014 com uma similaridade >=40%. O cluster MLVA-B agrupou 41 linhagens isoladas entre 1983-2014 com uma similaridade >=21,6%. Todas as 20 S. sonnei foram tipadas por MLST como ST152. Conclui-se que o potencial patogênico das linhagens estudadas foi destacado pela presença de importantes genes de virulência. A alta porcentagem de resistência para alguns antimicrobianos testados, tais como, sulfametoxazol-trimetoprim e tetraciclina é preocupante e pode levar à falha terapêutica. Os resultados da tipagem molecular sugerem que existam dois subtipos prevalentes nas linhagens de S. sonnei estudadas que se diferenciaram pouco geneticamente e contaminaram humanos durante 31 anos na região metropolitana de Ribeirão Preto no Estado de São Paulo. O resultado do MLST indica que as linhagens estudadas de Shigella sonnei isoladas no Brasil descendem de um precursor comum / Shigella spp. is among the four most isolated bacteria from diarrheal faeces in Brazil. In the world about 164.7 million cases of shigellosis occur annually, mostly in developing countries. The genus Shigella spp. comprises four species, being Shigella sonnei and Shigella flexneri the most frequently isolated species in Brazil and worldwide. The monitoring of resistant strains of Shigella spp. is essential and ensures an effective therapy when necessary. Specifically, the majority of the studies with S. sonnei performed in the country verified only the occurrence of this bacterium and there are few studies that investigated the pathogenic potential and genotypic diversity of this species. The aims of this project were to analyze the pathogenic potential, antimicrobial resistance profile and genotypic diversity of S. sonnei strains isolated during three decades in the State of São Paulo. In total, 72 of S. sonnei strains isolated from humans, between the years 1983-2014, were characterized for the presence of 12 virulence genes by PCR, resistance profile against 16 antimicrobials by disk diffusion and molecular typing by Pulsed-field gel electrophoresis (PFGE), Enterobacterial repetitve intergenic consensus PCR (ERIC-PCR), Multiple-locus variable-number tandem-repeat analysis (MLVA) and 20 strains typed by Multi-locus sequence typing (MLST). All the strains contained the ipaH, iuc and sigA genes. The ipaBCD gene was detected in 14 (19%) strains, the ial and virF genes in 13 (18%) strains and the sen gene in seven (10%) strains. The set1A, set1B, pic, sepA and sat genes were not detected. The highest resistance rates were against trimethoprim-sulfamethoxazole found in 42 (58.3%) strains and against tetracycline found in 30 (41.6%) strains. Eleven (15.5%) strains were resistant to ampicillin and piperacillin. Three (4.2%) strains were resistant to cefotaxime. Three (4.2%) strains were resistant to chloramphenicol. Two (2.8%) strains were resistant to ampicillin-sulbactam. Two (2.8%) strains were resistant to nalidixic acid. One (1.4%) strain was resistant to amoxicillin-clavulanic acid. Five (7%) strains were multidrug resistant (MDR). The dendrogram generated by PFGE grouped the 72 S. sonnei strains into two clusters designated PFGE-A and PFGE-B. The PFGE-A cluster comprised, 39 S. sonnei strains isolated between 1983 and 2014 with a similarity above 73.6% and more specifically 35 of those strains exhibited a similarity >= 80.3%. The PFGE-B cluster grouped, 33 S. sonnei strains isolated between 1984 and 2014 with a similarity above 74.7%, and 27 of those strains exhibited a similarity above 83.0.Similarly, the dendrogram generated by ERIC-PCR grouped the 72 S. sonnei strains into two clusters designated ERIC-A and ERIC-B. The ERIC-A cluster comprised, 37 S. sonnei strains isolated between 1983 and 2014 that exhibited a similarity above 78.8% and specifically 36 strains of those exhibited a similarity >= 82.3%. The ERIC-B cluster grouped, 34 S. sonnei strains isolated between 1987 and 2014 that exhibited a similarity above 84.0%. Also, by MLVA strains were grouped into two clusters designated MLVA-A and MLVA-B. The MLVA-A cluster comprised 31 strains isolated between 1983 and 2014 with a similarity >=40%. The MLVA-B cluster comprised 41 strains isolated between 1983 and 2014 with a similarity >=21.6%. All the 20 S. sonnei were typed by MLST as ST152. In conclusion, the possible pathogenic potential of the strains studied was highlighted by the presence of important virulence genes. The high percentage of resistance to some of the antimicrobials tested such as trimethoprim-sulfamethoxazole and tetracycline is worrying and may lead to therapeutic failure. Molecular typing results may suggest that there are two prevalent subtypes of S. sonnei strains studied that differed little genetically and have been contaminating humans over 31 years in the metropolitan region of Ribeirão Preto in the São Paulo State in Brazil. The result of MLST indicates that the Shigella sonnei strains studied isolated in Brazil descended from a common precursor
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Compétition par interférence et diversité génétique à l’échelle intraspécifique chez la bactérie lactique Carnobacterium maltaromaticum / Interference competition and genetic diversity at the intraspecific scale in the lactic acid bacterium Carnobacterium maltaromaticumRamia, Nancy 20 December 2018 (has links)
Compétition et diversité sont des phénomènes majeurs en microbiologie. Dans le secteur de l’agroalimentaire, la compétition est à la base de la biopréservation, un procédé dont l’objectif est d’inhiber des microorganismes indésirables par l’utilisation de microorganismes compétiteurs. La diversité microbienne est quant à elle à l’origine de la diversité de produits fermentés et en particulier de la typicité des fromages. Pourtant, l’écologie de la compétition microbienne dans les aliments et le lien avec la diversité microbienne sont très mal connus. L’objectif de ces travaux de thèse était d’une part d’étudier la diversité et d’autre part la compétition chez une bactérie représentative de l’écosystème fromager. Le modèle d’étude choisi est la bactérie lactique Carnobacterium maltaromaticum. Une analyse de diversité de 21 souches de C. maltaromaticum a été réalisée par MultiLocus Sequence Typing (MLST) et a permis de compléter la structure connue de la population de C. maltaromaticum. Cette étude a permis de révéler la présence de 56 génotypes au sein d’une collection de 71 souches, montrant une grande diversité génétique au sein de cette espèce. La compétition par interférence a été étudiée par réalisation de tests de compétition à haut débit. Chaque test de compétition mettait en jeu deux souches de la collection, une souche en situation d’expédition et une souche en situation de réception. Au total 5776 tests ont été réalisés à partir de la collection de 76 souches. Les résultats ont révélé que 60% des souches inhibaient au moins une autre souche de la collection indiquant que la compétition intraspécifique est majeure au sein de l’espèce C. maltaromaticum. Par ailleurs, une grande variabilité de largeur de spectre d’inhibition et de spectre de sensibilité a été observée. Une approche d’analyse de réseau a révélé une architecture « nested » du réseau compétitif suggérant que l’inhibition dépend non seulement des caractéristiques antagonistes des souches inhibitrices mais également du niveau de sensibilité des souches réceptrices. Une analyse génomique de 26 souches de la collection a été réalisée en vue de prédire leur contenu en gènes codant la synthèse de substances antagonistes et a permis d’identifier des gènes codant potentiellement des bactériocines. En conclusion, ces travaux de thèse ont montré que l’espèce Carnobacterium maltaromaticum est d’une part caractérisée par une grande diversité génétique et que d’autre part la compétition par interférence est fréquente au sein de la population / Competition and diversity are major phenomena in microbiology. In the agri-food sector, competition is the very basis of biopreservation, a process which objective is to inhibit undesirable microorganisms through the use of microbial competitors. Microbial diversity lies at the origin of the diversity of fermented products and particularly of the typicality of cheeses. However, the ecology of microbial competition in food and the link with microbial diversity are poorly understood. The goal of this thesis was to study the diversity and the competition of a representative model bacterium of the cheese ecosystem. The study model chosen is the lactic acid bacterium Carnobacterium maltaromaticum. An analysis of the diversity of 21 strains of C. maltaromaticum was performed by MultiLocus Sequence Typing (MLST) and allowed to complete the scheme of C. maltaromaticum population structure. This study revealed the presence of 56 genotypes among a collection of 71 strains, showing a high genetic diversity within this species. Interference competition was studied by performing high-throughput competition assays. Each competition assay involved two strains, one in the position of the sender strain and the other in the position of the receiver. In total, 5776 tests were performed on a collection of 76 strains. The results revealed that 60% of strains inhibited at least one other strain of the collection, indicating that intraspecific competition is major in C. maltaromaticum. Moreover, a large variability in the width of inhibition and sensitivity spectra has been observed. A network analysis approach revealed a nested architecture of the competitive network, suggesting that inhibition depends not only on the antagonistic characteristics of the inhibitory strains but also on the level of sensitivity of the receiver strains. A genomic analysis of 26 strains from the collection was performed in order to predict their gene content encoding the synthesis of antagonistic substances, and it allowed the identification of genes potentially encoding bacteriocins. In conclusion, this thesis has shown that the species Carnobacterium maltaromaticum is characterized by a high genetic diversity and that interference competition is frequent in the population
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Estudo das relações clonais entre amostras de Escherichia coli enteropatogênica atípica de origem animal e humana. / Clonal relationship among atypical enteropathogenic Escherichia coli strains isolated from different animal species and humans.Moura, Rodrigo Assunção 26 November 2009 (has links)
Quarenta e nove amostras EPEC típica (tEPEC) e atípica (aEPEC) pertencentes a diferentes sorotipos, isoladas de humanos e animais (cães, gatos, bovinos, ovinos, coelhos e sagüis) foram investigadas quanto ao perfil de virulência pela PCR e similaridade clonal por Multilocus Sequence Typing (MLST) e Pulsed-Field Gel Electrophoresis (PFGE). O objetivo deste estudo foi verificar se animais atuam como reservatório e fonte infecção de aEPEC para humanos. Os marcadores de virulência analisados revelaram que cepas aEPEC isoladas de animais possuem potencial para causar diarréia em humanos. As técnicas MLST e PFGE revelaram que amostras isoladas de animais e humanos compartilham relações clonais próximas ou idênticas. Estes resultados indicam que os animais estudados atuam como reservatório de aEPEC e representam fonte de infecção para humanos. Pelo fato de humanos, também atuarem como reservatório de aEPEC, ciclos de infecção cruzada animal-humano não podem ser descartados, pois a dinâmica de transmissão entre reservatórios de aEPEC não é muito bem compreendida. / Forty-nine typical and atypical EPEC strains belonging to different serotypes, isolated from humans, pets (cats and dogs), farm (bovines, sheep and rabbits) and wild animals (monkeys) were investigated for virulence markers and clonal similarity by pulsed-field gel electrophoresis (PFGE) and multilocus sequence typing (MLST). The virulence markers analyzed revealed that atypical EPEC strains isolated from animals have the potential to cause diarrhea in humans. Close clonal relationship between human and animal isolates was found with MLST and PFGE. These results indicate that these animals act as atypical EPEC reservoirs and may represent sources of infection for humans. Since humans also act as a reservoir of atypical EPEC strains, the cycle of mutual infection of atypical EPEC between animals and humans, mainly pets and their owners, cannot be ruled out, since the transmission dynamics between the reservoirs are not yet clearly understood.
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Caracterização fenotípica e genotípica de espécies de staphylococcus isolados das cidades de Manaus e Porto VelhoMiyamoto, Mirna Sayuri Farias 30 June 2010 (has links)
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Previous issue date: 2010-06-30 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Staphylococcus aureus is a potential pathogen, accounting for 60% of infections in ICU`s and can be found in the nasopharyngeal region and also in the nasal cavity, especially in health care workers who become sources of dissemination of these microorganisms
in hospital. However, the indiscriminate use of antibiotics to combat these pathogens, has caused the emergence of bacteria possessing resistance genes such as
mecA. Of which are about 30 to 50% of the strains of S. aureus and more than 50% of coagulase-negative staphylococci. The CONS are increasingly becoming the target of concern in hospital environments, increasing the need for screening, prevention and control of resistant strains. Therefore, the objective of this work was the characterization of Staphylococcus sp., looking for the resistance gene and genetic mapping of S. aureus
in clinical samples from the cities of Manaus and Porto Velho. The techniques used were biochemical tests, antibiogram, PCR (for 16 rRNA gene and mecA) and MLST.
The four strains of CONS were found, three of Staphylococcus sciuri and S. epidermidis, characterized by phenotypic and genotypic tests. They were possessed of
the methicillin resistance gene mecA. As for S. aureus studied, failed to detect the presence of the mecA gene, but gene mapping was performed from these samples with the technique of MLST, using five housekeeping genes. In this analysis we observed the formation of two large clusters between the cities of Manaus and Porto Velho, and two samples showed genetic divergence from other, thus demonstrating genetic variability between the cities of northern Brazil. The evidence related in the scientific literature, little research related to knowledge and epidemiological characterization of strains
existing in the Amazon region, in this research, we discussed some questions of phenotypic analysis, characterization of new resistant strains and preparation of database for future development of biotechnological tools. / Staphylococcus aureus é um patógeno em potencial, sendo responsável por 60% das infecções nos CTIs, podendo ser encontrado na região da nasofaringe e também nas fossas nasais, principalmente em profissionais da saúde que se tornam fontes de
disseminação desses micro-organismos no ambiente hospitalar. No entanto, o uso indiscriminado de antimicrobianos no combate desses patógenos, tem ocasionado o surgimento de bactérias possuidoras de genes de resistência, como o gene mecA, entre
as quais, cerca de 30 a 50% das cepas de S. aureus e mais de 50% são de estafilococos coagulase-negativos são portadores deste gene. Os CONS estão cada vez mais se tornando alvo de preocupação nos ambientes hospitalares, aumentando a necessidade de rastreamento, prevenção e controle das cepas resistentes. Sendo assim, o objetivo deste trabalho foi realizar a caracterização de Staphylococcus sp., quanto a presença do gene de resistência e mapeamento genético de S. aureus em amostras clínicas das cidades de
Manaus e Porto Velho. As técnicas aplicadas foram testes bioquímicos, antibiograma, PCR (para gene 16S rRNA e gene mecA) e MLST. Neste trabalho, encontramos quatro
cepas de CONS, três de Staphylococcus sciuri e um S. epidermidis, caracterizados por testes fenotípicos e genotípicos, sendo estas possuidoras do gene de resistência a meticilina mecA. Quanto aos S. aureus estudados, não se detectou a presença do gene
mecA, mas foi realizado o mapeamento gênico destas amostras com a técnica de MLST, utilizando cinco genes constitutivos. Nesta análise, foi observada a formação de dois grandes agrupamentos principais (clusters) entre as cidades de Manaus e Porto Velho, e duas amostras apresentaram divergência gênica das outras, demonstrando assim, variabilidade genética entre essas cidades da Região Norte do Brasil. Diante das
evidências científicas na literatura, escassas pesquisas relacionadas ao conhecimento epidemiológico e caracterização das linhagens existentes na região Amazônica, nesta pesquisa, foram discutidas algumas questões de análise fenotípica, caracterizações de
novas cepas resistentes e elaboração de banco de dados para futuro desenvolvimento de ferramentas biotecnológicas.
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Épidémiologie moléculaire du complexe d’espèces Ralstonia solanacearum, agent du flétrissement bactérien, dans les îles du Sud-Ouest de l’océan Indien / Molecular epidemiology of the Ralstonia solanacearum species complex causal agent of bacterial wilt, in the Southwest Indian Ocean islandsAfonso Mendes-Yahiaoui, Noura 20 June 2018 (has links)
Dans les îles du sud-ouest de l'océan Indien (SOOI) (Comores, Maurice, Mayotte, Réunion, Rodrigues et Seychelles), le flétrissement bactérien causé par le complexe d'espèces Ralstonia solanacearum (ceRs) est une phytobactériose considérée comme l'une des plus nuisibles pour les productions vivrières ou d'exportation. Les travaux de thèse présentés dans ce manuscrit avaient pour principal objectif l'exploration du niveau et de la distribution de la diversité génétique du ce Rs et de la structure génétique de ses populations dans le SOOI. Nous avons mené de vastes campagnes d'échantillonnage qui ont permis de constituer une large collection de 1704 isolats, principalement à partir de Solanacées (tomate, pomme de terre, piment, aubergine, poivron) et de géranium rosat. L'assignation phylogénétique des isolats a montré une très forte prévalence du phylotype I (88 %), qui est distribué dans chaque île du SOOI, tandis que les phylotypes II (9 %) et III (3 %) ne sont trouvés qu'à La Réunion. Deux souches de phylotype IV ont par ailleurs été signalées à l'île Maurice, représentant le premier rapport de ce groupe phylogénétique dans le SOOI. Une approche phylogénétique et de génotypage (MLSA/MLST) basée sur l'analyse de séquences de 6 gènes de ménage et 1 gène associé à la virulence (egl) a permis de révéler les relations génétiques entre 145 souches représentatives (diversité géographique + hôte d'isolement) du SOOI et 90 souches mondiales de référence. Le développement et l'application d'un schéma MLVA basé sur 17 séquences répétées en tandem (VNTR) sur près de 1300 souches a permis de révéler que les populations de phylotype I sont organisées en complexes clonaux dans le SOOI et que le niveau de diversité génétique est très contrasté selon les îles, Maurice présentant la plus forte diversité génétique. Un résultat majeur de cette thèse est la mise en évidence du déploiement d’une lignée génétique (sequevar I-31 ; STI-13 ; MT-035), surreprésentée dans les îles du SOOI, qui pourrait avoir été introduite via du matériel végétal contaminé depuis l'Afrique de Sud ou l’Afrique de l'Ouest. Nos études préliminaires montrent que l'haplotype majoritaire MT-035 (i) est le probable haplotype fondateur du complexe clonal le plus prévalent dans le SOOI, (ii) présente un pouvoir pathogène élevé (large gamme d'hôtes comprenant des plantes cultivées et des adventices, et forte agressivité sur Solanacées) et (iii) possède une forte aptitude à la compétition dans l'environnement via la production de bactériocines. Ces travaux permettront in fine de renforcer l'épidémiosurveillance et orienter les stratégies de lutte vis-à-vis de cet agent phytopathogène, notamment via le déploiement de cultivars résistants. / In the southwest Indian Ocean (SWIO) islands (Comoros, Mauritius, Mayotte, Réunion, Rodrigues and Seychelles), bacterial wilt caused by the Ralstonia solanacearum species complex (Rssc) is considered one of the most harmful plant disease for food crops or export. The main objective of this work presented in this manuscript was to explore the level and the distribution of the genetic diversity of Rssc and the genetic structure of its populations in SWIO. We conducted extensive sampling campaigns that resulted in a large collection of 1704 isolates, mainly from Solanaceae (tomato, potato, chilli, eggplant, pepper) and geranium rosat. The phylogenetic assignment of the isolates showed a very high prevalence of phylotype I (88 %), which is distributed in each island of the SWIO, while phylotypes II (9 %) and III (3 %) are found only in Réunion. Two phylotype IV strains have also been reported in Mauritius, representing the first report of this phylogenetic group in SWIO. A phylogenetic and genotyping approach (MLSA/MLST) based on sequence analysis of 6 housekeeping genes and 1 gene associated with virulence (egl) revealed the genetic relationships between 145 representative SWIO strains (geographic diversity + host) and 90 global reference strains. The development and application of MLVA scheme based on 17 variable number of tandem repeat sequences (VNTR) on nearly 1300 strains revealed that phylotype I populations are organized into clonal complexes in SWIO and that the level of genetic diversity is highly contrasted according to the islands, with Mauritius having the highest genetic diversity. This work highlights the deployment of a genetic lineage (Sequevar I-31, STI-13, MT-035), overrepresented in SWIO islands, which could have been introduced via contaminated plant material from South Africa or West Africa. Our preliminary studies show that the main haplotype MT-035 (i) is the probable founding haplotype of the most prevalent clonal complex in SWIO, (ii) has high pathogenicity (wide range of hosts including cultivated plants and weeds, and high aggressiveness on Solanaceae) and (iii) has a strong ability to compete in the environment via the production of bacteriocins. This work will ultimately strengthen epidemiosurveillance and guide control strategies of this plant pathogen, including the deployment of resistant cultivars.
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Epidemiologia molecular de Staphylococcus aureus resistentes à meticilina (MRSA) isolados de pacientes com Fibrose Cística / Molecular epidemiology of methicillin-resistant Staphylococcus aureus (MRSA) isolates from cystic fibrosis patientsDanielle Ferreira Lima 30 October 2013 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Staphylococcus aureus resistente à meticilina (MRSA) é um importante patógeno pulmonar em pacientes com fibrose cística (FC). Caracteriza-se pela resistência a todos os β-lactâmicos, devido a presença do elemento genético móvel SCCmec o qual abriga o gene mecA. Além disso, é reconhecido por vários fatores de virulência o qual destacamos a toxina Panton-Valentine Leukocidin (PVL), uma citolisina formadora de poros na célula hospedeira, e por apresentar diversos clones epidêmicos envolvidos em surtos hospitalares. O objetivo desse estudo foi caracterizar a epidemiologia de MRSA, isolados de pacientes com FC referente a dois centros de referência no Rio de Janeiro a partir da aplicação de técnicas fenotípicas e genotípicas. Um total de 57 amostras de MRSA foi submetido ao teste de difusão em ágar para 11 antimicrobianos a fim de avaliar perfil de resistência, com aplicação da técnica da PCR foi tipificado o SCCmec e investigado a presença do gene LukS-PV responsável pela codificação da toxina PVL com intuito de estabelecer uma melhor caracterização epidemiológica dos clones identificados pela técnica do MLST (Multilocus Sequence Typing). Os antimicrobianos não β-lactâmicos apresentaram um percentual de resistência abaixo de 50%, em que destacamos a eritromicina com o maior percentual 45,6% e quanto ao perfil de resistência 24,6% foram multirresistentes. Com exceção do SCCmec II, os outros tipos foram encontrados (I, III, IV e V) com os respectivos percentuais de 22,8% (n=13), 7,1% (n=4), 61,4% (n=35) e 3,5% (n=2) e apenas 5,3% (n=3) das amostras não foram caracterizadas, não há dados da prevalência do SCCmec IV. Vinte (35,1%) amostras apresentaram produtos de amplificação compatível com a presença do gene lukS, aproximadamente metade dessas amostras (55%) estava correlacionada ao SCCmec IV. Com a análise do MLST, obtivemos os STs 1 (n=1, 1,7%), 5 (n=28, 49,1%), 30 (n=11, 19,3%), 72 (n=1, 1,7%), 398 (n=1, 1,7%), 1635 (n=7, 12,3%), 1661 (n=2, 3,5%), 239 (n=5, 8,8%), e ainda identificamos um novo ST (2732) presente em 1 amostra. A partir de uma análise associativa entre o MLST e o SCCmec foi possível observar a presença de linhagens características de clones epidêmicos, como o UK-EMRSA-3 (ST5, SCCmec I), USA 800/pediátrico (ST5, SCCmec IV), Oceania Southwest Pacific Clone - OSPC (ST30, SCCmec IV) e Brazilian Epidemic Clone - BEC (ST239, SCCmec III). Em conclusão este estudo é o primeiro a caracterizar linhagens epidêmicas de MRSA nos centros de atendimento a pacientes com FC no Rio de Janeiro, sendo necessário um monitoramento constante a fim de evitar a disseminação desses clones. / Methicillin-resistant Staphylococcus aureus (MRSA) is a major pulmonary pathogen in patients with cystic fibrosis (CF). It is characterized by resistance to all β-lactam antibiotics due to the presence of the mobile genetic element SCCmec which harbors the mecA gen. Furthermore, MRSA is recognized by several virulence factors, such as the toxin Panton-Valentine Leukocidin (PVL), pore-forming cytolysin in the host cell, and produces various epidemic clones involved in hospital outbreaks. The aim of this study was to characterize the epidemiology of MRSA, using phenotypic and genotypic methods of isolates from CF patients from two reference centers in Rio de Janeiro. A total of 57 MRSA isolates were tested by the Agar diffusion test for 11 antibiotics. SCCmec and the presence of the Luks-PV gene, responsible for encoding the PVL toxin, were evoluted by PCR, in order to establish a better epidemiological clone characterization by MLST (Multilocus Sequence Typing) technique. Non-β-lactam antimicrobials showed less than 50% of resistance, which included erythromycin with the highest percentage was 45.6%, beside, multirresistant profile was observed in 24.6% of isolates. We found SCCmec types I, III, IV and V with the corresponding percentage of 22.8% (n = 13), 7.1% (n = 4), 61.4% (n = 35) and 3.5% (n = 2) respectively and just 5.3% (n = 3) isolates were not typified. SCCmec II was not detected among our isolates. Twenty (35.1%) isolates showed amplification products consistent with the presence of the lukS gen, approximately half of these samples (55%) were correlated with SCCmec IV. Using MLST analysis, we obtained STs 1 (n = 1, 1.7%), 5 (n = 28, 49.1%), 30 (n = 11, 19.3%), 72 (n = 1, 1.7%), 398 (n = 1, 1.7%), 1635 (n = 7, 12.3%), 1661 (n = 2, 3.5%), 239 (n = 5, 8, 8%), and further identified a new ST (2732) present in one isolate. Associating MLST and SCCmec, it was possible to observe the presence of epidemic clones, such as, UK-EMRSA-3 (ST5, SCCmec I), USA800/pediatric (ST5, SCCmec IV), Oceania Southwest Pacific Clone - OSPC (ST30, SCCmec IV) and Brazilian Epidemic Clone - BEC (ST239, SCCmec III). In conclusion this study is the first one to characterize epidemic strains of MRSA in care centers of CF patients in Rio de Janeiro, that require constant monitoring in order to prevent the spread of these clones.
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