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Molecular studies of Arabidopsis and Brassica with focus on resistance to Leptosphaeria maculans /Bohman, Svante. January 2001 (has links)
Thesis (Ph. D.)--Swedish University of Agricultural Sciences, 2001. / Includes bibliographical references.
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Turnip crinkle virus coat protein suppresses the hypersensitive response in plantsJyoti, Jyoti. January 2007 (has links)
Thesis (M.S.)--Worcester Polytechnic Institute. / Keywords: Turnip crinkle virus; Hypersensitive response. Includes bibliographical references (leaves 52-61).
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Molecular interactions of endophytic Actinobacteria in wheat and ArabidopsisConn, Vanessa Michelle. January 2005 (has links)
Thesis (Ph.D.) -- Flinders University, Dept. of Medical Biotechnology. / Typescript (bound). Includes bibliographical references (leaves 256 - 283). Also available online.
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Impact of alternate host phenology amd alternate hose-transgenic corn interactions on the Western corn rootworm (Coleoptera: Chrysomelidae)Chege, Peter Gacii. January 2006 (has links)
Thesis (Ph.D.)--University of Missouri-Columbia, 2006. / The entire dissertation/thesis text is included in the research.pdf file; the official abstract appears in the short.pdf file (which also appears in the research.pdf); a non-technical general description, or public abstract, appears in the public.pdf file. Title from title screen of research.pdf file (viewed on May 1, 2009) Vita. Includes bibliographical references.
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Studies on Cryphonectria cubensis in South Africa with special reference to mycovirus infectionVan Heerden, Schalk Willem. January 2004 (has links)
Thesis (Ph.D.)(Microbiology))--University of Pretoria, 2004. / Summary in English. Includes bibliographical references.
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Role of the Arabidopsis peptide transporter AtOPT6 in heavy metal detoxification and plant-pathogen interactionPatel, Ami Akshay. January 2007 (has links)
Thesis (Ph.D.)--University of Missouri-Columbia, 2007. / The entire dissertation/thesis text is included in the research.pdf file; the official abstract appears in the short.pdf file (which also appears in the research.pdf); a non-technical general description, or public abstract, appears in the public.pdf file. Title from title screen of research.pdf file (viewed on March 12, 2009) Includes bibliographical references.
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Molecular analysis of cross communication between signal transduction pathways during pathogen resistance response in Arabidopsis thaliana /Badruzsaufari. January 2004 (has links) (PDF)
Thesis (Ph.D.) - University of Queensland, 2005. / Includes bibliography.
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Promoter analysis of members of a plant defense-related LRR-RLK gene cluster in Arabidopsis thalianaMumm, Anina 15 July 2014 (has links)
M.Sc. (Biochemistry) / A 14-member, closely-spaced cluster of genes coding for leucine-rich repeat receptor-like kinases (LRR-RLKs) is located on chromosome 1 of Arabidopsis thaliana. Following on from previous microarray studies that found some of the members of this cluster to be upregulated in response to biotic stressors, including the bacterial elicitor flg22, the present study sought to confirm, using a luciferase-based protoplast assay, that flg22 does in fact induce the expression of the genes, and then to investigate the promoters of the genes. The promoters of At1g51790, At1g51850 and At1g51890 responded positively in this particular assay, and bioinformatic analyses determined that W-boxes are over-represented in the cloned regions. Mutational inactivation of individual W-boxes in the promoter of At1g51790 drastically reduced the flg22 response, except for the W-box closest to the start site, which seemed to increase both basal and flg22-inducible expression. In the promoter of At1g51850, mutational inactivation of either or both of its W-box dyads resulted in virtually no flg22 inducibility. The deletion of 6 W-boxes in the promoter of At1g51890, done via truncation, drastically reduced both its basal expression and its inducible response to flg22. These results provide evidence that W-box cis-elements are responsible for the upregulation of these LRR-RLKs in response to flg22. WRKYs -7, -11, -22,and -26 were found bioinformatically to have similar expression patterns to some of the genes in the cluster, and are thus good candidates to investigate as transcriptional regulators of the cluster in future studies.
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Perception responses of Nicotiana tabacum cells towards bacterial lipopolysaccharides.Gerber, Isak 09 May 2008 (has links)
Because plants lack a circulating adaptive immune system, they have evolved multicomponent defense mechanisms to protect themselves against pathogen attack. These defense mechanisms/responses are either constitutively active in the plant, or they are inducible by pathogens. Understanding of the plant response to pathogen attack has advanced rapidly in recent years. Bacterial and fungal pathogenicity factors have been isolated, and mechanisms that are utilized by the plant to recognize the pathogen and initiate a plethora of defense mechanisms have been identified. In contrast to the well-documented effects of LPS on mammalian cells, the effects of LPS on plant cells have been far less studied. The present study focused on the involvement of lipopolysaccharides (LPS) isolated from the outer cell wall of the Gram-negative bacteria, Burkholderia cepacia (strain ASP B 2D), and yeast elicitor (YE, a cell wall preparation from Saccharomyces cerevisiae) on the molecular mechanisms and components involved in signal transduction and defense-related responses in suspension cultured cells derived from tobacco plants (Nicotiana tabacum cv. Samsun). LPS was extracted, analyzed by denaturing electrophoresis and characterized with regard to 2-keto-3-deoxyoctonate (KDO) content, carbohydrate content, and protein content. The purified LPS and YE were found to trigger defense- and resistance-related responses in the tobacco cells. These responses included a rapid influx of Ca2+ into the cytoplasm of transgenic aequorin-transformed tobacco cells, the production of reactive oxygen species (ROS) during the oxidative burst, alkalinization of the extracellular culture medium of the cells, and changes in the protein phosphorylation patterns of the cells. Time- and concentration-dependent studies for the induction of perception and signal transduction-related responses by YE and LPS indicated that 100 µg.ml-1 of either elicitor was sufficient to induce significant responses in the cells. YE and LPS both induced a rapid transient increase in cytosolic Ca2+ levels, returning to basal levels after seconds, followed by a second, larger and long-term increase in cytosolic Ca2+. The YE-induced cytosolic Ca2+ influx was 7.5 fold higher than that of LPS. Luminol-dependent chemiluminescence measurements of hydrogen peroxide (H2O2) produced during the YE- and LPS-induced oxidative burst reactions indicated 3.5 fold higher levels of H2O2 induced by YE than that induced by LPS. Total inhibition of H2O2 production by YE- and LPS-induced cells was observed upon treatment of the cells with the H2O2-degrading enzyme, catalase. ROS production was also analyzed by the H2DCF-DA-derived fluorescence assay. The degree of ROS production by YE-treated cells was larger than that of cells treated with LPS, suggesting that YE is a more potent inducer of plant defense responses than LPS. Categorization of the origins of the oxidative bursts, induced by YE and LPS, by the addition of a ROS scavenger (NAC), inhibitors of ROS production (DPI and DDC) and a nitric oxide scavenger (PTIO) indicated that YE and LPS induced different quantities of the same ROS species. The induced ROS included O2-·, H2O2 and perhaps other ROS species as well. In addition, both YE and LPS induced a remarkable burst of nitric oxide (NO), as determined by the 97% and 95% respective inhibitions of the H2DCF-DA-derived fluorescence by the nitric oxide scavenger PTIO. Alkalinization of the extracellular culture medium of the tobacco cells was observed after treatment of the cells with YE and LPS. Both of these elicitors induced a significant increase in extracellular pH from resting pH values of 5.7 to pH 6.3 by YE, and 6.0 by LPS. Notably, the YE-induced response returned to near basal pH levels after 50 min, while the LPS-induced response showed no signs of declining and fluctuated around pH 5.9 for the duration of the experiment. YE and LPS both induced the hyperphosphorylation of two distinct proteins with approximate molecular masses of 28 kDa and 2 kDa. Changes in the pattern of the [32P]-radiolabeled proteins pp28 became visible after 20 min of YE-elicitation and 30 min of LPS-elicitation and changes in pp2 phosphorylation became visible after 20 min treatment of the cells with both elicitors. Addition of the protein kinase inhibitor, staurosporine, to the cells followed by subsequent elicitation by YE or LPS, resulted in inhibition or abolishment of the elicitor-induced responses during the oxidative burst, extracellular alkalinization, and protein phosphorylation. In contrast, the addition of the protein phosphatase inhibitor, calyculin A, was found to mimic elicitor action in several aspects, including extracellular alkalinization, the oxidative burst and protein phosphorylation, even in the absence of elicitors or any other stimulus. Thus, a fine balance between the actions of certain protein kinases and protein phosphatases is an essential component of signal transduction during YE and LPS elicitation of tobacco cells but the identification and characterization of the staurosporine-sensitive protein kinases and their substrates are necessary to gain a better understanding of the chemosensory perception and signal transduction of the YE and LPS elicitor signals in plant cells. Moreover, the question of whether these perception and transduction mechanisms are connected with a reduced activity of a protein phosphatase, or with the increased activity of a protein kinase, or even a combination of both, remains to be elucidated. / Prof. I.A. Dubery
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In silico analysis of cis elements and expression analysis of selected LPS-responsive RLK genes from Arabidopsis thalianaNew, Sherrie-Ann 29 July 2013 (has links)
M.Sc. (Biochemistry) / Our comprehension of pathogen perception and defense response mechanisms that play key roles in the resistance of plants against pathogen attack have progressed substantially within the recent years. Recognizing the molecular mechanisms involved in pathogen perception is the basis of understanding the signalling networks that are involved, including the transcriptional regulation of plant defense genes. This has proven to be a great challenge in plant pathology and, as such, has attracted much attention. The receptor-like kinases (RLKs) constitute one of the largest classes of plant defense genes in Arabidopsis thaliana, and contains, inter alia, the well-known leucine-rich repeats-RLKs (LRR-RLK), as well as the S-domain receptor-like kinases (SD-RLKs) that have been shown to be involved in pathogen perception and not only self-incompatibility (SI) as originally discovered. Some members of these RLKs are able to detect pattern-associated molecular patterns (PAMPs), which are conserved pathogen-derived molecules, and trigger a battery of basal defense responses. The transcriptional activation and expression levels of RLKs are dependent on the variation in promoter architecture as a result of the number, location, order and class of cis-elements found in a promoter sequence. It is hypothesized that candidate RLK genes involved in PAMP surveillance are triggered and transcriptionally regulated in response to perception of PAMPs, and that the intensity of response is relative to the promoter architecture. The primary objective was to identify SD-RLKs and LRR-RLKs which demonstrated up-regulation in response to PAMPs. The SD-RLKs (At1g11330, At1g61430 and At1g61610) and LRR-RLKs (At1g51850, At2g19190 and At5g45840) were selected on the basis of microarray data (Nürnberger - TAIR accession set 100808727) and the Genevestigator database, and characterized utilizing bioinformatics tools. Here, molecular techniques were used to show that the selected RLK genes were responsive to PAMP inductions. Furthermore, this study explored which cis-elements and their corresponding transcription factors (TFs) are found in the promoter of plant defense genes and that may be involved in transcriptional regulation thereof...
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