Global ETD Search

1	The ringspot type of potato virus X Ladeburg, R. C. January 1949 (has links) Thesis (Ph. D.)--University of Wisconsin--Madison, 1949. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 110-114). Potato virus X.
2	Rod-like particles associated with Solanum tuberosum L. Guthrie, James Warren, January 1952 (has links) Thesis (Ph. D.)--University of Wisconsin--Madison, 1952. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves [58]-63). Potato virus X.
3	A comparison of methods for inducing mutations in potato virus X Hansen, A. J. January 1958 (has links) Thesis (Ph. D.)--University of Wisconsin--Madison, 1958. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 64-73). Potato virus X.
4	Identification of a Chloroplastic "RNA Tractor" within the Genome of Potato Virus X (PVX) Arruda, Amanda 15 December 2009 (has links) Previous studies have detected the presence of the capsid protein (CP) and CP RNA of PVX in chloroplasts of transgenic plants expressing the PVX CP and 8kD genes from nuclear transgenes. CP RNA was also found in the chloroplasts of transgenic plants with mutations that eliminated either the CP or the 8kD protein. To further investigate the potential “RNA Tractor” activity of the PVX RNA, various constructs containing limited regions of the PVX 8kD and CP genes were produced and used to transform tobacco plants. RT-PCR analyses of chloroplastic RNA ascertained the presence of the RNA transcript within chloroplasts when as little as 125bp of the PVX sequence was used to transform plants. From this, it was concluded that the PVX proteins did not contribute to the movement of the viral RNA and that a region within the 125bp PVX sequence is acting as a chloroplastic “RNA Tractor”. Potato Virus X Chloroplast 0702
5	Identification of a Chloroplastic "RNA Tractor" within the Genome of Potato Virus X (PVX) Arruda, Amanda 15 December 2009 (has links) Previous studies have detected the presence of the capsid protein (CP) and CP RNA of PVX in chloroplasts of transgenic plants expressing the PVX CP and 8kD genes from nuclear transgenes. CP RNA was also found in the chloroplasts of transgenic plants with mutations that eliminated either the CP or the 8kD protein. To further investigate the potential “RNA Tractor” activity of the PVX RNA, various constructs containing limited regions of the PVX 8kD and CP genes were produced and used to transform tobacco plants. RT-PCR analyses of chloroplastic RNA ascertained the presence of the RNA transcript within chloroplasts when as little as 125bp of the PVX sequence was used to transform plants. From this, it was concluded that the PVX proteins did not contribute to the movement of the viral RNA and that a region within the 125bp PVX sequence is acting as a chloroplastic “RNA Tractor”. Potato Virus X Chloroplast 0702
6	Investigation of interaction between hepatitis B virus X protein (HBx) and NF-kB pathway in carcinoma cells Hong, Andy 27 August 2014 (has links) Hepatitis B virus (HBV) causes an estimated 600,000 deaths annually, largely due to hepatocellular carcinoma (HCC). HBx, a promiscuous transactivator, is a viral oncoprotein, but its exact functions are poorly understood. Many studies have suggested that NF-κB signaling mediates HBx functions, but the underlying molecular mechanisms remain yet to be elucidated. Here, we provide evidence that HBx-mediated NF-κB activation depends on the physical interaction between HBx and a transcription factor, p65. In the cytoplasm, HBx-p65 interaction may promote IκBα phosphorylation and subsequent p65 nuclear localization. A cytokine assay using qPCR and RT-PCR indicates that HBx is associated with a unique profile of cytokine mRNA expression. As shown by chromatin immunoprecipitation (ChIP), HBx in the nuclues can be recruited to the gene promoter by p65. These findings support the importance of HBx-p65 interaction and suggest that it is potentially a promising target of novel therapeutics for HBV-associated liver diseases, including HCC. Hepatitis B virus X protein NF-kB Pathway Hepatocellular carcinoma
7	Molecular characterization, differential movement and construction of infectious cDNA clones of an Ohio isolate of <i>Hosta virus X</i> De La Torre, Carola M. January 2009 (has links) No description available. Plant Pathology potexvirus Hosta virus X infectious clone replicase resistance
8	La Rémorine, une protéine végétale impliquée dans la propagation virale ; implication des modifications post-traductionnelles / Remorin, a plant protein involved in virus movement; implication of the post-translational modifications Perraki, Artemis 17 December 2012 (has links) Les Rémorines (REM) du groupe 1 sont des protéines spécifiques du monde végétale. Malgré leur caractère hydrophile elles sont localisées à la membrane plasmique. La phosphorylation des REM serait potentiellement impliquée dans la signalisation précoce et la défense des végétaux contre les pathogènes. Benschop et al. (2007) détecte AtREM1.3 (Arabidopsis thaliana, groupe 1b) phosphorylée en réponse au traitement par l'éliciteur générale flg22, tandis que Widjaja et al. (2008) a suggéré que la phosphorylation de AtREM1.2 est potentiellement impliquée dans la signalisation précoce à l'infection par Pseudomonas syringae. La fonction précise de la phosphorylation des protéines REM du groupe 1 reste inconnue. Des travaux antérieurs dans le laboratoire ont montré que le mouvement du virus X de la pomme de terre (PVX) est inversement corrélée à l'accumulation de StREM1.3 (Solanum tuberosum) et que StREM1.3 peut interagir physiquement avec la protéine de mouvement TRIPLE GENE BLOC Protein 1 (TGBp1) du PVX (Raffaele et al., 2009). Dans ce travail, nous avons étudié les mécanismes qui sous-tendent les interactions REM-TGBp1 et nous avons essayé de caractériser biochimiquement la kinase qui phosphoryle REM. Les conséquences physiologiques de l'interaction TGBp1 / StREM1.3 et de la phosphorylation de REM en terme de propagation des virus, d’inactivation génique post-transcriptionnelle, de régulation de l’ouverture des plasmodesmes, et d’activation de kinase ont également été étudiés. / The group 1 Remorin (REM) proteins are plant-specific oligomeric proteins that have been reported to localize to the plasma membrane despite their overall hydrophilic nature. There is evidence that the REM protein phosphorylation is potentially implicated in the early signaling and defense. Benschop et al. (2007) detected the AtREM1.3 (Arabidopsis thaliana group 1b of REM protein family) to be phosphorylated in response to treatment with the general elicitor flg22, while the Widjaja et al. (2008) suggested that the phosphorylation of AtREM1.2 is potentially implicated in early signaling upon infection with Pseudomonas syringae. The precise exact function of the group 1 REM protein phosphorylation remains unknown. Previous work in the laboratory showed that Potato virus X (PVX) movement is inversely correlated to potato StREM1.3 accumulation and that StREM1.3 can physically interacts with the movement protein TRIPLE GENE BLOCK PROTEIN 1 (TGBp1) from PVX (Raffaele et al., 2009). In this work, we studied the mechanism underlying the REM-TGBp1 interactions and we tried to characterise biochemically the kinase that phosphorylate REM. The physiological consequences of TGBp1/ StREM1.3 interaction and REM phosphorylation in terms of virus spreading, post-transcriptional gene silencing, plasmodesmata gating, kinase activation were also investigated. Rémorine Radeaux membranaires Phosphorylation des protéines Propagation de virus Potato virus X Plasmodesmata Remorin Membrane rafts Protein phosphorylation Virus propagation Potato virus X Plasmodesmata
9	Caractérisation structurale de l'éliciteur du virus X de la pomme de terre (PVX) : recherche, chez les plantes cultivées, de gènes hôtes, impliqués dans la résistance liée à Rx / Structural characterization of the elicitor of the potato virus X (PVX) : research of host genes, in crops, implicated in the Rx mediated resistance Leveau, Aymeric 12 October 2012 (has links) De nos jours, les agents pathogènes des plantes, engendrent encore des pertes agricoles importantes. A terme, la solution la plus adaptée semble être la création de variétés de plantes cultivées présentant une résistance génétique à large spectre et durable. Créer de telles plantes nécessite la compréhension des mécanismes de résistance mis en jeu dans des pathosystèmes modèles, tels que celui impliquant le gène de résistance Rx et le virus X de la pomme de terre. Dans ce système, la protéine Rx intervient dans la perception d’un facteur d'avirulence issu du virus: sa protéine de capside (Cp). Cependant, les mécanismes moléculaires déclenchant la résistance chez la plante exprimant Rx demeurent obscurs. Cette étude s’est focalisée sur l’étape de reconnaissance de l’éliciteur viral par Rx. Une première approche a permis la mise en évidence d’un éliciteur minimal de 90 acides amine. L’étude d’un fragment légèrement plus grand par des méthodes de biochimie structurale, tend à exclure un modèle selon lequel, la différence de structuration tertiaire entre Cp élicitrice et Cp non élicitrice déterminerait la reconnaissance par Rx. Une seconde approche, de biologie moléculaire, a mis en évidence deux protéines hôte interagissant avec ce petit fragment éliciteur. L'étude s’est focalisée sur un gène codant un facteur de transcription, nbERF5, et a révélé que cette protéine interagit aussi bien avec les Cp de souches de Potexvirus avirulentes que virulentes dans la résistance liée à Rx, mais également avec la protéine de résistance Rx et l’intéracteur direct: RanGAP2. La poursuite de la caractérisation de cet ERF, permettra de déterminer son importance dans la résistance liée à Rx. / Nowadays, phytopathogenic agents are still causing significant agricultural losses. The most suitable option appears to be the creation of crop species carrying a genetic durable and broad spectrum resistance. In order to create such varieties, we need to understand the mechanisms underlying resistance, involved in model Pathosystems, Such as the one composed of the resistance gene Rx and the potato virus X. In that system, the host gene encodes a protein assimilated to a receptor implicated in the perception of an avirulence factor produced by the virus: its capside protein (Cp). Nevertheless, the molecular mechanisms triggering the resistance remain largely unknown. This study has been focused on the elicitor recognition mediated by Rx. A first approach led to the identification of a minimal elicitor containing 90 amino acids has. The structural characterization of a slightly larger protein fragment using biochemical methods suggested that the difference in the tertiary structuration of both elicitor and non-elicitor Cp would not be the determinant of Rx mediated recognition. Second, a molecular approach led to the discovery of two host proteins interacting with the small elicitor fragment. The work was focused on a transcription factor, nbERF5 and showed that this protein interacts similarly with elicitor or non-elicitor Cps of Rx mediated resistance. Interestingly, this gene product is able to directly interact with the Rx protein, but also with the direct interactor of Rx: RanGAP2, protein required for the Rx mediated resistance efficiency. Further characterization of this ethylen response factor will help us to understand its role in Rx mediated resistance. Potato virus X (PVX) Elicitor Crop species
10	Development of a micropshere-based immunoassay for the detection of IgM antibodies to West Nile virus and St. Louis Encephalitis virus in sentinel chicken sera Haller, Logan C. January 2006 (has links) Thesis (M.A.)--University of South Florida, 2006. / Title from PDF of title page. Document formatted into pages; contains 86 pages. Includes bibliographical references.

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