Global ETD Search

91	Stress protein expression and cell survival in tomato in response to Ralstonia solanacearum exposure Byth, Heather-Anne 20 August 2012 (has links) M.Sc. / Plants are in constant conflict with pathogens and have evolved intricate mechanisms to protect themselves against pathogens. The gene-for-gene response is regarded as the first line of defence when plant and pathogen meet. This interaction leads to the induction of defence proteins such as PR proteins that protect the plant from invading pathogens. A seemingly unrelated topic to plants and pathogens is heat shock proteins (HSP). HSP are a highly conserved group of defence proteins induced in all organisms in response to a variety of environmental stresses to provide protection from, and adaptation to cellular stress. HSP are in general not considered to be part of the defence response classically induced by avirulent pathogens and whether they are induced and play a role in plant-pathogen interactions is controversial. The protective chaperoning capacity of HSP makes them ideal proteins to exploit to target as endogenous defence proteins in the search for new strategies in the management of infectious diseases. In humans, HSP induction during infection is a complex phenomenon depending on the pathogen, whether the infection is acute or chronic, the host cell type and its differentiative state as well as environmental factors. In this investigation the expression of the inducible and constitutive isoforms of the 70kDa HSP (Hsp70/Hsc70) was investigated in tomato, Lycopersicon esculentum in response to virulent and avirulent strains of Ralstonia solanacearum, the causative agent of bacterial wilt. Expression of Hsp70 was studied in conjunction with the accumulation of PR-la and host cell viability. A quick, non-toxic, tetrazolium-based assay was developed from the Alamar Blue assay, commonly used in mammalian cells, and applied for the evaluation of host cell viability. The results shown suggest Hsp70/Hsc70 is significantly induced in tomato cell suspensions during an incompatible interaction 24h to 48 h following co-cultivation with the avirulent R. solanacearum strain compared to normal levels at this interval in cells exposed to the virulent strain. In both compatible and incompatible interactions Hsp70/Hsc70 levels eventually (72 h) accumulated correlating significantly with decreased viability. PR-la accumulation was significantly induced from 6 h to 18 h by the virulent as well as the avirulent R. solanacearum strains. In general, comparable results were obtained using leaf discs as an in vivo model. Based upon the differential induction of Hsp70/Hsc70 by virulent and avirulent pathogens it is proposed that HSP may play an important role in determining the outcome of the interaction between tomato and R. solanacearum. Successful defence may not only involve a limited number of defence genes but may result from a concerted action of a large number of defence genes. Ralstonia solanacearum Plant-pathogen relationships Plant defenses Heat shock proteins Tomato wilts
92	DDRT-PCR analysis of defense-related gene induction in cotton. Zwiegelaar, Michele 19 May 2008 (has links) Plants have evolved mechanisms to defend themselves against pathogen attack. These defense mechanisms consist of a series of inducible responses (including specific recognition of pathogen invasion, signal transduction and defense gene activation) that result in resistance. Plants responses to pathogen invasion also result in the suppression of various housekeeping activities of the cells, thus diverting the cellular resources to defense responses. Systemic acquired resistance (SAR), an inducible defense response enhanced as a result of initial infection with a necrotising pathogen, lead to long-term resistance in a plant. Differential gene expression of genes related to defense in cultured cotton cells and leaf disks that have been challenged with a purified elicitor from Verticillium dahliae, as well as a chemical inducer of defense responses, DL-b-amino-n-butyric acid, were investigated. The mRNA differential display reverse transcriptase polymerase chain reaction (DDRT-PCR) was used to identify differentially expressed genes 5 h after application of either 50 mg mL-1 Verticillium dahliae elicitor or 1 mM DL-b-amino-n-butyric acid to cotton cell suspension cultures and leaf disks. Identified cDNAs up- or down-regulated for this study were classified into seven groups: ‘Transcription factor’, ‘Ubiquitin and Proteasome’, ‘Mitochondria’, ‘Protein kinase/Receptor-like kinase’, ‘Defense/Resistance’, ‘Carbohydrate metabolism/Cell wall’ and ‘Other’. The identified cDNAs up-regulated after Verticillium dahliae elicitor treatment, classified in the ‘Transcription factor’ group, coded for a MYB family transcription factor, zinc finger protein and a RMA1 RING zinc finger protein. The identified cDNA classified in the ‘Mitochondria’ group coded for a cytochrome C oxidase subunit I and II and the cDNA classified in the ‘Protein kinase/Receptor-like kinase’ group coded for a serine/threonine protein kinase. The identified cDNA classified in the ‘Defense/Resistance’ group coded for a disease resistance protein family and the cDNAs classified in the ‘Carbohydrate metabolism/Cell wall’ group coded for a beta-1,4-Nacetylglucosaminyltransferase, a cellulose synthase-like protein, a 3-deoxy-D-manno-octulosonic acid transferase-like protein and a hydroxyproline-rich glycoprotein homolog. In addition, a cDNA classified in the ‘Other’ group, coded for a urea active transporter-like protein. The cDNA identified that was down-regulated after Verticillium dahliae elicitor treatment, classified in the ‘Carbohydrate metabolism/Cell wall’ group, coded for a proline-rich protein family and cDNAs classified in the ‘Other’ group coded for a thioredoxin reductase1 and ‘hookless1’ homologue. Among the identified cDNAs up-regulated after DL-b-amino-n-butyric acid treatment, classified in the ‘Ubiquitin and Proteasome’ group, were a 20S proteasome subunit alpha type 5 and an ubiquitin. The identified cDNA classified in the ‘Mitochondria’ group coded for a NADH dehydrogenase subunit 6, a mitochondrial DNA product. The identified cDNAs classified in the ‘Other’ group coded for an armadillo repeat containing protein and a phosphoinositide-specific phospholipase C. The cDNA identified that was down-regulated after DL-b-amino-n-butyric acid treatment, classified in the ‘Protein kinase/Receptor-like kinase’ group, coded for a casein kinase I like protein. The identified cDNA classified in the ‘Carbohydrate metabolism/Cell wall’ group, coded for a putative glycine rich protein. Also, the identified cDNA classified in the ‘Other’ group, coded for a NADH dehydrogenase subunit F that is coded for by chloroplast DNA. The differential expression of the cDNAs up-regulated after the Verticillium dahliae elicitor treatment was confirmed for seven of the nine cDNA clones with a Reverse Northern dot blot. Also, the differential expression of two cDNAs up-regulated after DL-b-amino-n-butyric acid treatment was confirmed and the induction kinetics was followed with a Reverse Northern dot blot. The mRNAs corresponding to C8B5, the gene encoding an ubiquitin, were detectable after 2.5 h and showed a significant increase in expression up to 7.5 h, after which the expression levels decreased to levels similar to those detected at 2.5 h. The mRNAs corresponding to L4B4, a homologue of an a-type subunit of 20S proteasome, were detectable after 2.5 h with an gradual increase in expression levels up to 7.5 h after which the expression levels decreased to levels similar to those detected at 2.5 h. This study facilitated a better understanding of differential gene regulation during triggering of defense responses in cotton following elicitation with the Verticillium dahliae elicitor and DL-b-aminon- butyric acid. / Prof. I.A. Dubery cotton disease and pest resistance gene expression plant defenses plant-pathogen relationships
93	Induced defense responses in plants by bacterial lipopolysaccharides Coventry, Helen 16 August 2012 (has links) M.Sc. / Plant disease can be naturally suppressed by plant growth promoting rhizobacteria and endophytic / endorhizosphere bacteria. Apart from direct antagonism against pathogenic organisms, these plant growth promoting bacteria and endophytes can induce a form of systemic resistance (ISR) in plants. The main bacterial inducing component has been suggested to be the outer membrane lipopolysaccharides (LPS), found in the cell walls of Gramnegative bacteria. Burkholderia cepacia (Pseudomonas cepacia) is a bacterial endophyte that has potential as a biocontrol agent. Although a few studies have indicated that LPS from, certain Pseudorrionads has a protective effect in plants against disease, a controlled investigation has not been attempted previously with a purified preparation of LPS. LPS was isolated from the bacterial cell wall, prepared and characterized by denaturing electrophoresis. Characterization of the LPS also included the determination of 2-keto-3-deoxyoctonate, carbohydrate —, as well as the protein content. The purified LPS was found to possess activity as an elicitor of plant defence responses in tobacco where the induction of pathogenesisrelated (PR) proteins were investigated and electrophoretically analysed. An optimum LPS concentration range of 50-150 14/m1 was determined by studying cell death using the Evans blue procedure. Time and concentration ranges for LPS induced responses were established in cell suspensions, leaf discs, whole leaves and whole plants. It was determined that the PR-protein response could be optimally induced after four days following elicitation with 100 fag/ml LPS. Systemic induction of resistance was tested by treatment of the lower leaves and following the response in the upper leaves; as well as bacterial inoculation of the plant roots followed by PR-protein extraction of the leaves. Treatment of tobacco plants with LPS protected the plants against subsequent infection by the pathogen Phytophthora nicotianae, thereby suggesting a role for LPS as activators of systemic acquired resistance (SAR). It can be concluded from this study that the lipopolysaccharides from Burkholderia cepacia, that were used in this study, are effective local as well as systemic inducers of the defense PR-proteins in Nicotianae tabacum cv Samsun NN. The fact that protection is associated with PR-protein induction distinguishes it from the protection induced by rhizobacteria. Plant-pathogen relationships. Plants - Disease and pest resistance. Plant defenses. Endotoxins. Tobacco - Diseases and pests - Control.
94	The role of the putative receptor-like cytoplasmic kinase CLR1 in chitin signalling Ziegler, Yvonne 17 December 2015 (has links) Pflanzen erkennen potentielle Pathogene anhand von konservierten Mikroben-assoziierten molekularen Mustern (MAMPs) welche sie über membranlokalisierte Rezeptoren wahrnehmen. Der durch diese Rezeptoren aktivierte Signalweg spielt eine wesentliche Rolle in der pflanzlichen angeborenen Immunität. Das Binden eines MAMPs an die oberflächenexponierten Ektodomänen der Rezeptoren führt typischerweise dazu, dass diese homo- oder heteromere Komplexe bilden. Diese Komplexe können aus rezeptorartigen Kinasen (RLKs), rezeptorartigen Proteinen (RLPs) sowie aus rezeptorartigen zytoplasmatischen Kinasen (RLCKs), welche keine extrazelluläre Domäne zur Ligandenbindung besitzen, bestehen. Der Fokus dieser Arbeit liegt auf einem möglichen heteromeren Signalkomplex der unteranderem aus der lysinhaltigen-Motiv (LysM) RLK CERK1 besteht. CERK1 spielt eine Rolle in der durch Chitin induzierten Signaltransduktion und Abwehrantwort in Arabidopsis. In einer vorangegangenen Hefe-Zwei-Hybrid-Analyse wurde die RLCK CLR1 als möglicher Interaktor der CERK1 Kinasedomäne identifiziert. Vergleichende Sequenzanalysen zeigen, dass die Aminosäuresequenz von CLR1 eine hohe Homologie zu den Sequenzen der Kinasedomänen anderer Arabidopsis LysM-RLKs aufweist. Dies könnte möglicherweise für die Funktion des Proteins eine Rolle spielen. Die auf TAIR10 annotierte CLR1 Sequenz scheint falsch annotiert worden zu sein, da das eigentliche Protein laut Analysen in dieser Arbeit wahrscheinlich erst 23 Aminosäuren Richtung C-Terminus beginnt, wodurch dann ein mögliches N-Myristoylierungsmotiv exponiert wird. In vitro wird CLR1 direkt von der CERK1 Kinasedomäne phosphoryliert. CLR1 Fusionsproteine wurden in stabil transgenen Arabidopsis-Pflanzen CERK1-abhängig durch Chitin phosphoryliert. Unabhängig von der möglichen N-terminalen Myristoylierung scheint CLR1 sowohl in vitro also auch in vivo ein Phosphorylierungssubstrat von CERK1 darzustellen. Mikrosomale Fraktionierungen und Analysen zur subzellulären Lokalisation in transgenen Pflanzen zeigten dass die Mehrheit der CLR1 Proteine löslich ist, wobei auch eine kleine Subpopulation von CLR1 membrangebunden in Pflanzenzellen vorliegt. Drei unabhängige T DNA Insertionslinien wurden isoliert und im Hinblick auf die Weiterleitung Chitin-induzierter Signale und Immunität gegen pilzliche und bakterielle Schädlinge getestet. Die clr1 T-DNA Linien wiesen eine verringerte ROS Produktion, MAPK Aktivierung und Expression von Abwehrgenen auf, was eine Rolle für CLR1 im Chitin-induzierten Signalweg bestätigt. Dabei hing die Ausprägung des Phänotyps von der Position der T-DNA ab. clr1 Pflanzen waren nicht in der Resistenz gegen pilzliche Schädlinge beeinträchtigt, wohingegen sie eine leicht erhöhte Anfälligkeit gegenüber bakterieller Infektionen zeigten. Da der CLR1 Promotor erhöhte Aktivität in Hydathoden zeigt, könnte CLR1 darin involviert sein selektiv das Eintreten von Pathogenen über diese konstitutiv geöffneten Öffnungen einzugrenzen. 570 Plant-pathogen interaction CERK1 Receptor-like cytoplasmic kinase Plant immunity Chitin signalling Biologie (PPN619462639)
95	Differential proteomic analysis of Lipopolysaccharide-responsive proteins in Nicotiana tabacum Gerber, Isak B. 22 May 2008 (has links) Prof. I.A. Dubery Tobacco disease and pest resistance Plant-pathogen relationships Plant defenses Plant proteins Plant proteomics
96	Release of volatile compounds by Arabidopsis thaliana cells in response to elicitation by lipopolysaccharides Le Noury, Denise Anne 31 August 2011 (has links) M.Sc. / Plants produce volatile organic compounds in response to certain elicitors and environments. These compounds have a variety of functions, including the attraction of insects for pollination and seed dispersal, responses to both abiotic and biotic stresses and the priming or sensitizing of neighbouring plants for subsequent attack. The majority of the volatile blend is made up of terpenoid compounds and these compounds are formed through the action of an important class of enzymes termed Terpene Synthases. Lipopolysaccharides form part of the cell surface of Gram-negative bacteria and they are classed as “pathogen-associated molecular pattern molecules” and are thought to induce defence responses in plants by influencing different metabolic pathways that could ultimately result in the production of defence volatiles. LPS from Burkholderia cepacia that has been reported to induce the oxidative burst, the nitric oxide burst and changes in cytosolic calcium concentrations, was used in this study. In order to analyse the volatiles, Single-Drop Microextraction and Solid-Phase Microextraction were used as static headspace sampling techniques that allow the preconcentration of volatile analytes prior to analysis. Both these techniques are fast, simple and equilibrium based and both allow for minimal sample size and preparation. Luminometry was performed in order to test the efficacy of LPS and to determine if LPS is able to induce the oxidative burst in Arabidopsis thaliana. Histochemical staining of transgenic plants containing the PR1:GUS and PDF:GUS reporter gene constructs was performed in order to determine which signalling pathway LPS follows, either the jasmonic acid pathway or the salicylic acid pathway. SPME was then used to extract samples from both time and concentration studies. The time studies involved incubation times of 0 h, 2 h, 4 h and 6 h and 0 d, 1 d, 2 d and 3 d respectively, while the concentration studies involved using LPS concentrations of 0, 20 μg/ml, 40 μg/ml, 60 μg/ml, 80 μg/ml and 100 μg/ml. SPME was also used for the comparision of two A. thaliana ecotypes (Columbia and C24) as well as two A. thaliana knock-out lines (At5g44630 – multi-product sesquiterpene synthase and At5g23960 – (E)-β-caryophyllene synthase), and finally it was used for the sampling of A. thaliana leaf tissue. SDME was used to compare two solvents, namely octane and toluene and these results were compared to the SPME results. GC-MS was used only for the identification of volatiles with both SPME and SDME. Finally, GC-MS was used with SPME to identify volatiles that are produced by leaf tissue after priming. Arabidopsis thaliana Plant gene expression Plant defenses Plant-pathogen relationships Endotoxins Lipopolysaccharides
97	Differential gene expression in Nicotiana tabacum cells in response to isonitrosoacetophenone Maake, Mmapula Peggy 09 December 2013 (has links) M.Sc. (Biochemistry) / Plants respond to various stress stimuli by activating a broad-spectrum of defence responses that can be expressed locally at the site of pathogen infection (hypersensitive response-HR) as well as systemically in uninfected tissue (systemic acquired resistance-SAR). The ability to continuously respond to both abiotic and biotic stimuli leads to changes in the plants’ physiology, morphology and development. Therefore, there is a need to define and understand the mechanism of the plant defence system, including the mode of recognition, activation of signalling pathways and subsequent defence. In so doing, a long lasting and effective protection against various pathogens may be established. In the current study, the transcriptome status of cultured cells of Nicotiana tabacum was investigated using annealing control primer (ACP)-based differential display (DD) since it is an improved technology to compare patterns of gene expression in RNA samples, isolated from tissue / cells under different biological conditions, using a novel priming system. Here, ACP-DDRT-PCR was used in combination with a next-generation sequencing technology, namely 454 pyro-sequencing, which is the only technique that generates longer reads which are suitable for de novo assembly and annotation of non-model plants like tobacco of which the genome is not yet published in Genbank. SAR occurs following induction by biotrophic or necrotising pathogens. However, it can also be manifested artificially after chemical treatment. In this study, isonitrosoacetophenone (INAP), a novel compound that was originally isolated from extracts of citrus peel undergoing oxidative stress, was used as a chemical inducer and it was hypothesised that this compound induces defence-related responses in plants. In order to investigate this, tobacco cell suspensions were elicited with 1 mM INAP, followed by ACP-DDRT-PCR and subsequent identification of differentially expressed genes using pyro-sequencing. Gene expression Nicotiana tabacum Tobacco - Diseases and pest resistance Plant immunology Plant-pathogen relationships Plant defenses
98	Heat shock protein 70 and defence responses in plants: salicylic acid and programmed cell death. Cronje, Marianne Jacqueline 06 May 2008 (has links) Background: Heat-shock (HS) proteins (HSP) are induced or increasingly expressed to protect against lethal environmental stresses. Hsp70 in particular, provides protection against various stresses including oxidative stress, is implicated in thermotolerance and appears to have an anti-apoptotic function. Anti-inflammatory salicylates potentiate the induction of the 70 kDa HSP (Hsp70) in mammals in response to HS, enhance thermotolerance and induce apoptosis. In plants, salicylic acid (SA) is a natural signalling molecule, mediating resistance in response to avirulent pathogens. The effects of salicylic acid-mediated increases in Hsp70/Hsc70 expression and its relation to events associated with PCD/ apoptosis in plants are unknown. Hypothesis and Objectives: The hypothesis studied in this investigation was that SA influences Hsp70 expression similar to that found in mammalian cells and may influence the choice between survival or death, whether apoptosis or necrosis. In order to verify this hypothesis the effect of SA alone or in combination with HS on Hsp70/Hsc70 accumulation and events associated with apoptosis were investigated through three main objectives: 1) Determine whether SA in plants, as in mammalian cells, can potentiate heat-induced Hsp70/Hsc70 accumulation or induce Hsp70/Hsc70 by itself at elevated levels. This was done by investigating the effect of SA at various concentrations on Hsp70/Hsc70 expression at normal temperatures or following heat. 2) Establish flow cytometry as a rapid and quantitative alternative for the evaluation of Hsp70 accumulation in plant protoplasts to be evaluated in concert with various parameters indicative of cellular integrity. 3) Investigate whether Hsp70/Hsc70 expression modulated by SA influences cell death (apoptosis/necrosis) or associated events such as mitochondrial membrane permeability (MMP) or reactive oxygen species (ROS) in plant protoplasts using flow cytometry. Materials and Methods: The effect of SA alone or in combination with HS on Hsp70/Hsc70 levels in tomato cells was investigated using biometabolic labelling and Western blotting. A flow cytometric assay was developed to determine Hsp70/Hsc70 levels in tobacco protoplasts. MMP and ROS were monitored by the fluorescent probes DiIC1(5) and H2DCFDA respectively, phosphatidylserine externalisation by annexin V binding and DNA fragmentation by the TUNEL assay in protoplasts treated with SA and/or HS. Results: Results obtained in the attainment of the three main objectives were: 1) In plants, as in mammals, low concentrations of SA do not induce Hsp70/Hsc70 but significantly potentiate heat-induced Hsp70/Hsc70 levels while cytotoxic levels significantly induce Hsp70/Hsc70. In cell suspension cultures, this induction was preceded by increased membrane permeability. 2) Flow cytometry can be implemented as a rapid, quantitative alternative to detect intracellular Hsp70/Hsc70 accumulation in protoplasts. 3) In protoplasts exposed to low doses of SA at normal temperatures, PCD/apoptosis is increased as reflected by increased DNA fragmentation and phosphatidylserine externalisation, but not by increased MMP or ROS. High doses of SA were associated with increased levels of necrosis. Exposure of protoplasts to low doses of SA in combination with HS showed suppression of PCD/apoptosis (reflected by decreased DNA fragmentation and phosphatidylserine externalisation), accompanied by decreased levels of ROS and increased MMP. Discussion: These results suggest that SA-mediated increases in Hsp70/Hsc70 accumulation at normal temperatures are associated with cellular damage and protect cells against necrosis. On the other hand, low doses of SA that potentiate heat-induced Hsp70/Hsc70 accumulation abrogated the induction of apoptosis that was induced by low doses of SA at normal temperatures. The anti-apoptotic effects of Hsp70 could therefore influence plant resistance by interfering with the execution of PCD. These results could contribute to our understanding of heat-induced disease susceptibility, and the manipulation of SA-modulated Hsp70/Hsc70 should be carefully considered in the light of its ability to affect cell death, which may be advantageous or deleterious to the plant cell. / Prof. L. Bornman plant disease and pest resistance plant-pathogen relationships cell death plant defenses heat shock proteins
99	The molecular characterization of interaction between Fusarium circinatum and Pinus patula Venter, Eduard 11 May 2005 (has links) The main objective of this thesis was the elucidation of the host-pathogen interaction between Pinus patula and Fusarium circinatum. This was accomplished by studying differential gene expression at the molecular level. Therefore, the first chapter reports the use of PCR-based methods in gene discovery and transcriptome analysis. The use of these techniques in the identification of novel transcripts in host-pathogen interactions addressed. These examples illustrate the differences and strong features of each technique. Chitinases are linked to defence responses in plants. In chapter tw0, the induction of chitinases in P. patula was assessed at both the protein and genetic level. Western blot analysis and enzyme activity assays indicate that chitinase enzyme is not detected a part of the defence response by P. patula after infection by F. circinatum. This was further confirmed by the lack of significant induction of two Pinus chitinase genes, LP6 and PSCHI4, as determined by RT-PCR analysis. Partial DNA sequence homologues for the LP6 and PSCH14 genes were determined and compared with a variety of plant chitinases. The low levels of detectable chitinase induction in P. patula might explain the high levels of susceptibility to the pitch canker fungus observed in seedlings of this tree. Pinus patula, the most widely planted species in South Africa, is highly susceptible to infection by F. circinatum. In chapter three, suppression subtractive hybridisation was used to elucidate the changes taking place at the molecular level early on in this interaction. Most of the identified transcripts shared homology to both biotic and abiotic stress in plants. The induction of one fragment, displaying homology to phytocyanin proteins, as followed through RT-PCR. Induction levels for this fragment differed significantly between less and more susceptible plants. Although most of the sequences isolated in this study can be Iiked to stress, most have not been linked with specific plant-pathogen interactions. This raises questions in regard to the function of these genes in host-pathogen interactions. Further research identify the function of these sequences in the defence response will be needed. These sequences can also be tested against a family of Pinus trees to ascertain if they will be useful in marker assisted selection. A molecular analysis of culture degeneration and pathogenicity of F. circinatum was attempted in chapter four. In this chapter, the differential induction of transcripts in F. circinatum was determined against several other Fusarium spp. Several of he identified fragments shared homology with stress related proteins. One transcript shared homology to a polyketide synthase, FUM5, that could be linked to fumonisin production in other Fusarium spp. ELISA detected no fumonisin production, although the FUM5 transcripts were detected. The identification of all the transcripts could provide a basis for more intensive gene discovery studies in F. circinatum and other Fusarium spp. The induction of these sequences in different isolates needs to be studied to prove their function in F. circinatum. This study also complements several other studies that studied the morphological characteristics of culture degeneration. Resistance gene analogues have been reported from a diverge set of plant species. In chapter five, degenerate PCR amplification was used to isolate TI-NBS-LRR like resistance gene analogues from a range of Pinus species. These sequences w re further characterised through comparative analysis with previously reported Pinus resistance gene analogues. Through motif analysis, several of the known conserved motifs found in NBS domains were identified and conservation with other plant NBS motifs is indicated. The P-Ioop and GLPL motifs displayed a high level of conservation on amino acid level with other plant NBS motifs. However, slight differences in several of the conserved regions were observed when the Pinus analogues were compared with Arabidopsis thaliana. The identification of differences between angiosperm and gymnosperm NBS sequences indicates that design of new degenerate probes and primers for the isolation of more ancient NBS sequences is needed. Further, phylogenetic and structural analyses of these sequences will also aid in understanding the relationship between angiosperm and gymnosperm NBS sequences. The knowledge gained from such a study will highlight the similarities between angiosperm and gymnosperm defence responses. This study represents the first detailed report on RGA in Pinus. / Thesis (PhD)--University of Pretoria, 2006. / Genetics / Unrestricted Pinus patula Molecular ecology Fusarium diseases of plants Plant-pathogen relationships UCTD
100	Application of Direct-sequencing Peptide Proteomics to the Characterization of Antagonistic (Endogenous and Exogenous) Proteins in Cereal Grains Koziol, Adam January 2013 (has links) The cereal seed plays a crucial role in society – both in the “food as medicine” paradigm, but also in food security. It is the starch and proteins present in the seed that lend it importance in these dissimilar anthropomorphic activities. This thesis investigation first characterized the post-translational processing of the potential diabetogen, wheat globulin-3. Globulin-3-like peptides were observed primarily in the embryo. These peptides varied significantly in their molecular masses and isoelectric points, as determined by two dimensional electrophoresis and immunoblotting. Five major polypeptide spots were sequenced by mass spectrometry, allowing for the development of a model of the post-translational events contributing to the globulin-3 processing profile. Three separate investigations of starch granules from different cereal species were performed. In the first series of experiments, pathogen-susceptible maize kernels were injected with either conidia of the fungal pathogen Fusarium graminearum or sterile water controls. Proteins in the desiccated fungal remnants on the surface of the kernels as well as in the endosperm and embryo tissues of the control and infected kernels were isolated and these proteomes were sequenced using tandem mass spectrometry. Approximately 250 maize proteins were identified. These proteins were classified into functional categories. There was an increased representation of defense proteins in the both the embryo and endosperm tissues of infected maize samples. The proteome of the fungal remnants was composed of 18 proteins. Several of these proteins were categorized as being involved in the metabolism of plant-sourced molecules, or in stress response. The second series of experiments detail the investigation of commercially prepared rice and maize starches using tandem mass spectrometry. The majority of identified proteins, in both rice and maize samples, were involved in either carbohydrate metabolism or storage. Markers for seed maturity and for starch mobilization were also documented. Finally, the third series of experiments investigated the non-host proteomes present in commercially-prepared starches. Non-host proteins from a variety of species, including Homarus americanus were found in the starch samples. This documentation of H. americanus proteins in these starch samples may have food safety implications with regards to shellfish allergies. globulin diabetes starch granule-associated proteome food security translational medicine plant/pathogen interactions

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