Structure-function studies on EPSP from pathogenic bacteria

Saunders, Jane Elizabeth

January 2003

No description available.

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Evaluation of novel enzyme substrates for the detection of pathogenic bacteria

Butterworth, Lynne Angela

January 2003

No description available.

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Physiological and molecular changes induced in Catharanthus roseus in response to phytoplasma infection

Tuffen, Melanie Geraldine

January 2012

Phytoplasmas are specialised plant pathogenic bacteria, transmitted by sap sucking insect vectors and responsible are for a number of economically important crop diseases. Typical disease symptoms include phyllody, virescence, little leaf, increased branching, stunting and yellowing. Catharanthus roseus, or Madagascar periwinkle, is often used as an experimental host for phytoplasma disease due to the fact that infection produces a good range of representative symptoms. Very little is known about the mechanisms of phytoplasma pathogenicity, and the main aim of this study was to learn more about changes induced in C. rose us in response to phytoplasma infection. Sweet potato little leaf (SPLL) infection induces a reduction in leaf size in C. roseus. Leaf size is controlled by two main mechanisms, initially leaves grow via mitotic divisions but when these cease a period of cell expansion occurs. Upper epidermal cells of healthy and SPLL infected plants were investigated for histological changes at the 2nd and 5th leaf stage. At all stages there was a reduction in cell size, though this was not always enough to account for total reduction in leaf size suggesting some inhibition of cell proliferation occurs. The leaf ratio was affected positively in SPLL infected plants, suggesting disease has a greater affect on growth in the width direction than the length. Phyllody is defined as the replacement of flowers with leaf like structures, but very little work has been done on investigating the actual properties of phyllodous leaves. The upper epidermis of flowers from soybean phyllody (SP) infected plants was investigated. In general three cell types were found: conical cells, cells that resembled closely those from the upper epidermis of leaves and cells that appeared to be a hybrid between the two, with a flattened conical cell appearance. Though C. roseus provides a useful host for phytoplasma disease, it lacks the genomic resources available to other species. The Xspecies microarray technique allows the use of a microarray for a species it was not originally designed for. In this instance transcripts from SPLL infected C. rose us were run on the ATH1 Arabidopsis GeneChip®. A hybridisation efficiency of 150 was chosen. The micro array indicated up-regulation of ARF7 and PIN6, genes involved in auxin response and transport, as well as two miRNA processing genes, HASTY and XRN3. Down-regulation of genes involved in photosynthesis was observed. The expression of a number of transcripts was then monitored with quantitative PCR. In general, the qPCR results were not in agreement with the array data. This could be a result of the probes actually binding to other, closely related transcripts within the C. rose us genome. Changes in phytohormones occur in many plant infections, and have been proposed as an explanation for the symptoms seen in phytoplasma infected plants. The levels of cytokinins were measured in the stem, root, leaf and floral tissues of healthy and infected plants, but no significant changes in cytokinin content were seen. A semi-quantitative technique was used to study changes in gene expression in auxin and cytokinin responsive genes. Down-regulation of the cytokinin receptor was seen in all tissues except the leaf. An increase in expression of the auxin influx carrier AUX1 occurred within infected root material, but the transcript was dramatically down regulated in other tissues. It is evident that changes in gene expression occur in infected plants. Gene expression is repressed by DNA methylation. Changes in DNA methylation were monitored using Methylation Sensitive AFLP. Changes in CpNpG methylation were detected in plants infected with Vinca coconut phyllody and Rhemannia glutinosa. Some isolated sequences returned showed homology to the chloroplast and mitochondrial genomes. These organelle genomes were thought to be free of cytosine methylation, raising questions about whether this hypothesis is correct.

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Metabolic reconstruction and validation: characterisation of two aromatic amino acid hydroxylases from Toxoplasma gondii

Gaskell, Elizabeth Anne

January 2008

The Apicomplexa are a phylum of single celled parasitic organisms that cause a wide range of diseases from human malaria and encephalitis in AlDs patients to coccidiosis in chickens and East Coast fever in cattle. There has been a huge effort in recent years to sequence the genomes of many of these pathogens. This thesis begins by taking a comparative genomics approach to predict novel metabolic pathways from the newly sequenced genomes of Toxoplasma gondii and Eimeha tenella.

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An investigation into the interactions between pathogenic bacteria and Acanthamoeba polyphaga

Morley, Robert James

January 2004

No description available.

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Cell survival, biofilm formation and differential gene expression of two opportunistic pathogens

Lewis, Marie

January 2005

No description available.

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Microbiological factors affecting oral malodour

Doran, Anna Louise

January 2004

No description available.

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Les protéines à ancre GPI de Candida albicans dans l’interaction avec l’hôte : de l’étude de domaines solubles à la caractérisation de la protéine Rbt1 / GPI-anchored proteins of Candida albicans in host interactions : from soluble domains study to Rbt1 protein characterization

Monniot, Céline

29 November 2012

Candida albicans est un pathogène opportuniste présent à l'état commensal chez 75% de la population. Il s'agit du premier pathogène d'origine fongique (4ème cause d'infections nosocomiales) responsable d'infections superficielles chez les personnes immunocompétentes ou d'infections profondes chez les personnes immunodéprimées. Les protéines à ancre GPI (Glycosyl Phosphatidyl Inositol) de C. albicans, situées à l'interface entre la levure et les cellules de l'hôte, semblent être les plus aptes à moduler la réponse immunitaire. Au cours de cette étude, une banque de surexpression et de sécrétion d'une vingtaine de domaines fonctionnels putatifs issus de protéines à ancre GPI potentiellement exposées à la surface a été construite. Le crible réalisé a permis d'identifier sept polypeptides impliqués dans la modulation de la réponse des cellules macrophages et trois polypeptides ayant des propriétés immunogènes. Dans un deuxième projet, nous avons démontré que la protéine à ancre GPI Rbt1 spécifique des hyphes de C. albicans avait des propriétés d'adhésines aux substrats abiotiques et contribuait à la formation de biofilm et d'agrégats. La caractérisation de cette protéine a permis d'apporter des données nouvelles concernant l'exposition en surface de protéines membranaires suivant la forme morphologique de C. albicans. / C. albicans is an opportunistic pathogen present as commensal in 75% of the population. This is the first fungal pathogen (4th cause of nosocomial infections) responsible for superficial infections in immunocompetent patients or deep infections in immunocompromised patients. C. albicans GPI-anchored proteins (Glycosyl Phosphatidyl Inositol) present at the interface between the yeast and the host cells appear to be the proteins most capable of modulating the immune response. In this study, a library overexpressing and secreting twenty fonctionnal domains from GPI-anchored proteins potentially exposed to the surface was constructed. We identified seven polypeptides involved in the modulation of the macrophage response and three polypeptides with immunogenic properties. In a second project, we demonstrated the properties of the hyphae specific GPI-anchored protein Rbt1 in adhesion, biofilm formation and aggregation. The characterization of this protein gives us new data on surface exposure of membrane proteins depending to C. albicans morphological state.

Candida albicans

Protéines

Gpi

Réponse immunitaire

Rbt1

Adhésion

Candida albicans

Proteins

Gpi

Immune response

Rbt1

Adhesion

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