The role of Peyer's patches in the modulation of immune responses /

Ahmed, Ansaruddin.

January 1982

Thesis (Ph.D.)--University of Adelaide, Dept. of Microbiology and Immunology, 1982. / Typescript (photocopy).

Efficiency of antibody classes in cholera immunity /

Steele, Edward John.

January 1975

Thesis (Ph.D.) -- University of Adelaide, Dept. of Microbiology and Immunology, 1975. / Typescript (photcopy).

Role of Vibrio cholerae El Tor hemolysin and its antibody in intestinal immunity /

Phakakrong Samrejrongroj. Wanpen Chaicumpa,

January 1978

Thesis (M.Sc. (Tropical Medicine))--Mahidol University, 1978.

Identification of an aerotaxis transducer in Vibrio cholerae /

Boin, Markus A.

January 1900

Thesis (M.S.)--Oregon State University, 2007. / Printout. Includes bibliographical references (leaves 42-47). Also available on the World Wide Web.

Bioatividade de extratos de algas frente à bactérias com fatores de virulência, resistentes a antimicrobianos

Silva, Giselle Cristina

January 2012

SILVA, G. C. Bioatividade de extratos de algas frente à bactérias com fatores de virulência, resistentes a antimicrobianos. 2012. 61 f. Dissertação (mestrado em Ciências Marinhas Tropicais) - Instituto de Ciências do Mar, Universidade Federal do Ceará, Fortaleza, 2012. / Submitted by Nadsa Cid (nadsa@ufc.br) on 2015-04-20T19:31:37Z No. of bitstreams: 1 2012_dis_gcsilva.pdf: 1478354 bytes, checksum: 59498a440456387052763c8870f84f49 (MD5) / Approved for entry into archive by Nadsa Cid(nadsa@ufc.br) on 2015-04-20T19:31:51Z (GMT) No. of bitstreams: 1 2012_dis_gcsilva.pdf: 1478354 bytes, checksum: 59498a440456387052763c8870f84f49 (MD5) / Made available in DSpace on 2015-04-20T19:31:51Z (GMT). No. of bitstreams: 1 2012_dis_gcsilva.pdf: 1478354 bytes, checksum: 59498a440456387052763c8870f84f49 (MD5) Previous issue date: 2012 / Infection of aquatic organisms by Vibrios can lead to serious economic losses for farmers and expose consumers to serious health risks. Some Vibrio species carry factors of virulence making them potentially pathogenic to humans. The consequent widepread use of antibiotics by farmers has led to the selection of resistant strains in the environment. Due to the increasing incidence of bacteria resistant to antibiotics, much effort is currently invested in identifying natural products with bioactive potential. Macroalgae have been studied for their ample spectrum of biological, antioxidant, antifungal and agglutinating activities. The purpose of this study was to evaluate the antibacterial activity of hexane, methanol, acetone and ethanol-based extracts of Chlorophyta, Phaeophyta and Rhodophyta macroalgae against virulent víbrio strains resistant to antibiotics. The microorganisms used in the study included víbrio strains isolated from wild oysters purchased at a fish market, strains from shrimp hemolymph and the standard strains ATCC and IOC. The strains were challenged with extracts using the disk diffusion method. Ethanol was the most efficient solvent. Padina gymnospora inhibited the largest number of Vibrio species (57%) and produced the largest inhibition halos, followed by Ulva fasciata (40%) and Hypnea musciformes (30%). The smallest minimum inhibitory concentration was observed for ethanolic extracts of Padina gymnospora (512 μg/mL against Vibrio alginolyticus). The results suggest extracts of marine macroalgae may represent a potential source of natural biologically active products for use in the industry. / Bactérias do gênero Vibrio acometem a saúde de organismos aquáticos causando sérios prejuízos econômicos a aquicultores e problemas na saúde dos consumidores. Determinadas espécies são consideradas potencialmente patogênicas por possuírem fatores de virulência. Em virtude dos problemas causados por vibrioses, o uso de antimicrobianos em cultivo aquático tornou-se constante, e determinante na seleção de cepas resistentes. Com o aparecimento cada vez maior de bactérias resistentes a antimicrobianos, surgiu o interesse pela busca de produtos naturais com potencial bioativo. As algas tornaram-se alvo de pesquisas por serem responsáveis por um amplo espectro de atividades biológicas, antioxidantes, antifúngicos, aglutinantes, além de antibacterianos. Deste modo, este trabalho objetivou investigar a atividade antibacteriana de extratos hexânicos, metanólicos, acetônicos e etanólicos de macroalgas das classes Chlorophyta, Phaeophyta e Rhodophyta frente a víbrios com fatores de virulência, resistentes a antimicrobianos. Esses víbrios foram isolados de ostras selvagens comercializadas em uma feira de pescado, e de hemolinfa de camarão, além de cepas padrões ATCC e IOC e foram testados através de antibiograma pelo método de difusão em disco. Concluiu-se que: o álcool etílico foi o solvente mais eficaz na extração do composto ativo capaz de inibir o crescimento bacteriano; a Padina gymnospora foi a macroalga que apresentou a maior capacidade inibitória das espécies de Vibrio (57%) e as maiores zonas de inibição, seguida pela Ulva fasciata (40%) e por último a Hypnea musciformes (30%); O menor valor de CIM encontrado foi com o extrato etanólico da Padina gymnospora com 512 μg/ mL contra V. alginolyticus.Os resultados apresentados neste trabalho sugerem que os extratos de macroalgas marinhas poderiam servir como uma fonte potencial de produtos naturais biologicamente ativos para aplicação na indústria.

Vibrio cholerae

Gracilaria domingensis

Agentes Antibacterianos

Detection of Vibrio cholerae and Vibrio parahaemolyticus by molecular and culture methods from source water to household container-stored water at the point-of-use in rural Vhembe communities in South Africa

Ntema, Vusi McMillan

25 March 2010

M.Tech. / With the recent cholera outbreak in Zimbabwe and the outbreak taking a sub-regional dimension with cholera cases being reported from neighbouring countries like Botswana and South Africa, there was a need to monitor drinking water from environmental water sources as well as household water-storage containers at the point-of-use in rural communities. Although conventional culture-based microbiological methods for the identification of Vibrio species from environmental water samples are reliable, they require several days to complete (Khan and Cerniglia, 1994). Culture dependent and culture independent methods for the detection of Vibrio cholerae and Vibrio parahaemolyticus from water samples were optimised during the current study. With these methods, the occurrence and distribution of V. cholerae and V. parahaemolyticus in source waters as well as in household container stored-waters at the point-of-use in the Nwanedi Catchment, was determined. The culture based approach analyses involved the enrichment of water samples in alkaline peptone water (APW) for 18 hours at 37°C followed by culture on selective thiosulfate-citrate-bile salts-sucrose (TCBS) agar. Typical colonies on TCBS agar were confirmed using the API 20NE as well as the two multiplex polymerase chain reactions (m-PCR). The culture independent PCR approach was done by filtering 100 ml of the water sample onto polycarbonate membranes followed by DNA extraction from the bacteria captured on the membranes using an adaptation of the in-house DNA extraction method used in the laboratory. This DNA was used as template for the m-PCR’s. For the culture based PCR detection, 100 ml water was filtered onto nitrocellulose membranes followed by 18 hours enrichment in APW. DNA was then extracted from the enrichment broth and subsequently used as template for the m-PCR’s. All water samples were analysed with all three methods to compare the results and determine the most effective method for the detection of the two-selected Vibrio species present in water samples. PCR analyses were performed using two m-PCR assays targeting the SodB (V. cholerae species), FlaE (V. parahaemolyticus species) and 16S rRNA (Vibrio and Enterobacteriacea species) genes (Multiplex 1) and the V. cholerae O1 and V. cholerae O139 rfb genes, ctxA (cholera toxin) gene and 16S rRNA gene (Multiplex 2). The 16S rRNA primers were included in the Multiplex PCR’s as an internal control. The m-PCR assays were 100% specific for total and toxigenic V. cholerae and total V. parahaemolyticus when using target bacteria and various other non-target bacteria. The m-PCR assays when coupled with an 18 hours enrichment step could detect as few as 4-10 V. cholerae and V. parahaemolyticus cells in pure cultures as well as in spiked environmental water samples. Fifty water-storage containers and 56 environmental water samples (river, spring and borehole) from rural households in the Vhembe district of the Limpopo Province of South Africa were tested for the presence of selected Vibrio’s, using (1) the standard culture based approach, (2) PCR detection without enrichment and (3) PCR with a brief pre-enrichment. Container water samples were collected before [referred to as free volume (FV) of water] and after dislodging of the biofilm [referred to as dislodged biofilm (BD)] from the inner sidewalls of containers. Of the samples analysed with the standard cultured based technique combined with colony confirmation using m-PCR 1, 34 (12.8%) tested positive for the presence of V. cholerae (SodB gene), 2 (1.3%) for the presence of V. parahaemolyticus (FlaE gene) and all the samples tested positive for the 16S rRNA gene. In contrast, only 1 (0.6%) tested positive for the presence of V. cholerae and 0 (0%) for the presence of V. parahaemolyticus when the isolates were confirmed with API 20NE. With the culture dependant PCR method, 65 (41.7%) of the samples tested positive for the presence of V. cholerae, 3 (1.9%) for the presence of V. parahaemolyticus and all the samples tested positive for the 16S rRNA gene. Seventeen (10.9%) of the samples tested positive for the presence of V. cholerae (SodB) and 16S rRNA genes, 0 (0%) for the presence of V. parahaemolyticus (FlaE gene) with the culture independent direct PCR detection protocol. All the samples that tested positive for V. cholerae with any of the three methods were tested for the presence of toxigenic V. cholerae species with the second multiplex PCR. Six of the source water samples tested positive for V. cholerae O1 as well as the cholera toxin genes. Of the 56 source water samples, 14 (25%) were positive for V. cholerae and 0 (0%) were positive for V. parahaemolyticus with one or all of the methods. Six (10.7%) of the V. cholerae positive samples tested positive for V. cholerae O1 rfb gene, and ctxA gene (cholera toxin). Thirty (60%) of the 50 FV and 28 (56%) of the DB water samples tested positive for V. cholerae, and 3 (6%) of the FV and 0 (0%) of the DB samples tested positive for V. parahaemolyticus with one or all of the methods. None of the positive V. cholerae samples tested positive for the presence of toxigenic V. cholerae. The results presented suggest that the use of culture-based techniques alone is inadequate for detection of selected Vibrio’s in the environmental water samples and that such techniques are not enough to guarantee satisfactory protection of human health. The combination of filtration, enrichment, DNA extraction and m-PCR method provide a sensitive and specific method for the detection of V. cholerae and V. parahaemolyticus in environmental water samples. This method proved to be the most effective for detection and identification of selected Vibrio’s when compared to the culture based method and PCR without enrichment method. The inclusion of an enrichment period allows for the detection of culturable bacteria which is crucial as PCR detection does not give indications on the viability of the detected material. The enrichment period will also dilute any inhibitors for the m-PCR’s that may be present. Detection of V. cholerae and V. parahaemolyticus in the source water used by the population and in the water-storage containers indicates possible seeding of containers with Vibrio species from the source water. Furthermore, the detection of these organisms in DB samples indicates that these organisms attach to containers’ inner sidewalls, forming biofilms, further sustaining their occurrence and proliferation. The detection of V. cholerae and V. parahaemolyticus in household water-storage containers certainly places the consumers at risk of infection of diseases caused by these organisms.

Vibrio cholerae

Pathogenic bacteria

Water pollution

Development and Optimization of a Rapid Assay Kit for the Detection of Vibrio Cholerae in Bivalves

Carter, Demarcus Rashad

13 December 2014

A rapid assay kit for Vibrio cholerae (Vc) was developed to detect and quantify Vc cells in oyster samples within 24 h. The kit, formulated within a two -phase (liquid and solid) 96-well plate, can detect biomarker expression of Vc when the enrichment broth and incubation temperature are optimized. The kit showed 91 % selectivity and 92 % specificity when tested with 23 inclusive Vc and 106 exclusive non-Vc strains. The kit was further optimized using 47 samples of oysters, clams, and soil. There was no significant difference in most probable number between the kit, conventional PCR and BAX PCR regardless of agar heating method (autoclaved vs. boiled). The kit’s limit of detection was below 5 cfu/g. The kit is a reliable method for the detection of V. cholerae in bivalve samples.

rapid assay

bivalves

oysters

cholera

vibrio cholerae

Structural biology of Vibrio cholerae pathogenicity factors

Sheikh, Md. Arif

January 2009

The World Health Organization (WHO) states that 30,000 children under the age of five die each day worldwide. Around a quarter of these die from diarrheal disease caused by microbial infection. In addition to this high mortality rate, there are data emerging on the morbidity effects of diarrheal disease, for example a few episodes of diarrhea in the first two years of life can remove 10 IQ points and lead to growth deficiency. Vibrio cholerae, the causative agent of the diarrheal disease cholera, is a serious problem in third world countries, where sanitary and hygiene infrastructure is very poor, and claims several thousand lives every year. In order to better understand the pathogenicity regulation in V. cholerae, structural and functional investigations of a hypothetical protein family present in pathogenicity islands and a transcriptional regulator protein for DNA-binding were investigated. Two adjacent genes, vc1804 and vc1805, encode hypothetical proteins within the Vibrio pathogenicity island-2 (VPI-2) of Vibrio cholerae, and are part of a cluster of genes only present in pathogenic strains of the bacterium. Paralogous adjacent genes, vc0508 and vc0509, are also present within a second pathogenicity island, the Vibrio seventh pandemic island-2 (VSP-2), of V. cholerae O1 El Tor and O139 serogroup isolates. Sequence similarity suggests that the VC0508, VC0509, VC1804 and VC1805 proteins will share a similar fold. The crystal structures of VC0508, VC0509 and VC1805 have been determined to a resolution of 1.9, 2.4 and 2.1 Å, respectively. Several recombinant constructs of vc1804 were made, but no soluble proteins were expressed. This hypothetical protein family reveals structural homology to human mitochondrial protein p32. Human p32 is a promiscuous protein known to bind to a variety of partners including the globular head component of C1q. We have shown that VC1805 binds to C1q. One possibility is that VC1805 is involved in adherence of the bacterium to membrane-bound C1q in the gut. To explore the roles of VC0508, VC0509, VC1804 and VC1805 in vivo, gene knockout and animal model studies of those proteins are underway. The ferric uptake regulator (Fur), a metal-dependent DNA-binding protein, acts as both a repressor and activator of numerous genes involved in maintaining iron homeostasis in bacteria. It has also been demonstrated in Vibrio cholerae that Fur plays an additional role in pathogenesis, and this opens up the potential of Fur as a drug target for cholera. The first crystal structure of a Fur protein, from Pseudomonas aeruginosa, revealed a dimeric molecule with each monomer containing a dimerization domain, a helical DNA-binding domain and two metal binding sites: Zn1 is proposed to be a regulatory Fe-binding site, and Zn2 is proposed to be a structural Zn-binding site. Here we present the crystal structure of V. cholerae Fur (VcFur) that reveals a very different orientation of the DNA-binding domains. Accompanying these structural changes are alterations in the amino acids coordinating the zinc at the Zn2 site, and this lends support to this being the site regulated by iron. There is no evidence of metal binding to the cysteines that are conserved in many Fur homologues, including the much-studied E. coli Fur. An analysis of the metal binding properties shows that like other Fur proteins, VcFur can be activated by a range of divalent metals. EPR spectroscopy measurements of the movements of the DNA-binding domain, in the presence of DNA and different metals, are underway.

571.29

Chorégraphie de ségrégation des deux chromosomes de Vibrio cholerae / Segregation choreography of the two chromosomes of Vibrio cholerae

David, Ariane

05 December 2013

L’objectif de cette thèse est de définir la chorégraphie de ségrégation des deux chromosomes circulaires de Vibrio cholerae, c’est à dire le positionnement de l’information génétique au cours de la croissance de la cellule, ainsi que les mécanismes dirigeant ces ségrégations. Il a longtemps été supposé que les bactéries étaient trop petites pour avoir une organisation intra-cellulaire, et le manque de techniques appropriées ne permettait pas d’infirmer cette hypothèse. Or la taille des chromosomes comparée à celle de la bactérie impose une compaction et aujourd’hui, de nouvelles techniques de microscopie et d’analyse génétique permettent d’affirmer que les chromosomes bactériens étudiés jusqu’à maintenant ont tous une organisation et une chorégraphie de ségrégation précises et différentes selon les espèces. Toutes les espèces étudiées à ce jour ont un chromosome circulaire unique : la réplication du chromosome commence à une origine unique bidirectionnelle, les deux fourches de réplication se déplacent le long des deux bras de réplication (ou réplichores) et finissent la réplication au terminus, diamétralement à l’opposée de l’origine de réplication sur la carte du chromosome. Peu d’espèces ont été étudiées, et Vibrio cholerae émerge progressivement comme un nouveau modèle : son génome est réparti sur deux chromosomes, et la chorégraphie de plusieurs chromosomes dans une cellule n’a jamais été décrite. De plus, cette espèce semble être au croisement évolutif entre Caulobacter crescentus et Escherichia coli : Vibrio cholerae a d’une part une morphologie en croissant, des systèmes de partition aux origines et un positionnement de l’origine du chromosome I, semblables à C. crescentus, et d’autre part un système de compaction du terminus et un set de gènes impliqués dans la maintenance du chromosome ayant co-évolué, qu’on ne retrouve que dans peu d’espèces proches d’E. coli. Une autre caractéristique intéressante de V. cholerae est que le chromosome II semble avoir été acquis récemment et n’est donc peut être pas gouverné par les mêmes mécanismes que le chromosome I, comme en témoignent le positionnement de son origine et son terminus, inédits pour des chromosomes bactériens. Parmi les Vibrios (environ 60 espèces principalement retrouvées dans les environnements aquatiques), certaines espèces sont des pathogènes dévastateurs pour les poissons, le corail, les crustacés ou les fruits de mer. Mais la plus documentée est Vibrio cholerae, car elle provoque chez l’Humain une maladie provoquée par l’ingestion d’eau contaminée qui peut être mortelle si le patient n’est pas réhydraté à temps. Bien que facilement traitable, le choléra fait encore de nombreuses victimes dans les pays en développement où les structures de santé et les règles d’hygiène font parfois défaut. Ainsi l’étude de Vibrio cholerae présente un intérêt médical, mais également par extension aux autres Vibrios, un intérêt environnemental non négligeable. / The aim of this thesis is to define the segregation choreography of the two circular chromosomes of Vibrio cholerae, which is the positionning of the genetic information during cell growth, as well as the mecanisms directing those segregations. It was supposed for a long time that bacteria were too small to have a intra-cellular organization and the lack of appropriate tools could not prove this hypothesis wrong. The size of the chromosomes compared to the size of the cell means there has to be a compaction and today, new tools for microscopy and genetic analysis allow us to affirm that all bacterial chromosomes studied so far have an organization and a segregation choreography which are precise and different between specie. Most bacterial specie studied to this day have a unique circular chromosome : the replication of the chromosome starts at a unique and bidirectionnal origin, both replication forks move along the two replication arms (or replichores) and end the replication at the terminus which is diametrically to the opposite of the origin on the chromosome map. A few specie have been studied, and Vibrio cholerae progressively emerges as a new model : its genome is divided between two chromosomes, and the choreography of several chromosomes in a cell has never been described. Moreover, this species seems to be at the crossover between Caulobacter crescentus and Escherichia coli : Vibrio cholerae as on one hand, a crescent shape, partition systems positionned at both origins and a positionning of the chromosome I origin similar to C. crescentus, and on the other hand a compaction system of the terminus and a set of genes involved on the maintenance of chromosomes that one only finds in very few specie closely related to E. coli. An other interesting characteristic of V. cholerae is that the chromosome II seems to have been acquired recently and thus might not be governed by the same mecanisms as the chromosome I, as shown by the positionning of its origin and terminus which are completely new to bacterial chromosomes. Among Vibrios (about 60 species mostly found in aquatic environments), some species are devastating pathogens for fish, coral, crustacean and shellfish. But the most documented one is Vibrio cholerae, because it induces a disease in humans caused by the ingestion of contaminated water, which can be deadly if the patient is not rehydrated on time. Although easily treatable, cholera still makes a lot of victims in developing countries where health structures and basic hygiene sometimes lack dramatically. The study of Vibrio cholerae has a medical interest, but also by extention to other Vibrios, a non-negligible environmental interest.

Vibrio cholerae

Chromosome bactérien

Système de partition

Microscopie de fluorescence

Vibrio cholerae

Bacterial chromosome

Partition system

Fluorescence microscopy

Molecular characterisation of the transcriptional activator, HLYU, of Vibrio cholerae O1/ Leanne R. Purins.

Purins, Leanne Roslyn

January 2004

"May, 2004" / Includes corrigenda. / includes bibliographical references (leaves 118-156) / [13], 155 leaves : ill. (some col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, School of Molecular and Biomedical Science, Discipline of Microbiology and Immunology, 2005

Vibrio cholerae Molecular aspects

Vibrio cholerae Immunology.