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51	Characterization of a Putative Phospholipase D ´ Like Gene as a Lipid Signaling Modulator and Its Role in Salicylic Acid Mediated Defense Pathway in Nicotiana tabacum Dean, Phillip T. 01 December 2014 (has links) Plants are in a perpetual evolutionary arms race with a wide range of pathogens. Their sessile nature has led plants to evolve defense mechanisms that can quickly recognize a unique stressor and deploy a resistance tailored for a specific attack. The salicylic acid (SA) mediated defense pathway has been shown to be one of the major defense tactics plants can initiate to defend themselves against microbial pathogens. Following a pathogen attack high levels of methyl salicylate (MeSA) are produced that can be converted to SA by the enzyme salicylic acid binding protein 2 (SABP2). A yeast two-hybrid screening was performed to identify protein interactions with SABP2 to better understand the regulation of the enzyme on a cellular level. SBIP-436 is an interacting protein of tobacco SABP2 which showed high homology to phospholipase D-δ (PLD- δ). With an abundance of stimulators PLD- δ may be a lipid signaling modulator developed to perform various functions in different situations. PLD- δ may be a key player in a lipid signaling cascade in the SA mediated defense pathway. We present a novel Nicotiana tabacum PLD- δ putative gene construct. We demonstrate that the putative PLD- δ is subject to alternative splicing and its expression is differentially modulated under biotic and abiotic stress. Our results indicate that this putative PLD- δ may play a role in the SA mediated defense pathway. Plant defense Salicylic Acid SABP2 SBIP-436 PLDδ Expression. Biochemistry Integrative Biology Molecular Biology
52	Roles of LESIONS SIMULATING DISEASE1 and Salicylic Acid in Acclimation of Plants to Environmental Cues : Redox Homeostasis and physiological processes underlying plants responses to biotic and abiotic challenges Mateo, Alfonso January 2005 (has links) <p>In the natural environment plants are confronted to a multitude of biotic and abiotic stress factors that must be perceived, transduced, integrated and signaled in order to achieve a successful acclimation that will secure survival and reproduction. Plants have to deal with excess excitation energy (EEE) when the amount of absorbed light energy is exceeding that needed for photosynthetic CO2 assimilation. EEE results in ROS formation and can be enhanced in low light intensities by changes in other environmental factors.</p><p>The lesions simulating disease resistance (lsd1) mutant of Arabidopsis spontaneously initiates spreading lesions paralleled by ROS production in long day photoperiod and after application of salicylic acid (SA) and SA-analogues that trigger systemic acquired resistance (SAR). Moreover, the mutant fails to limit the boundaries of hypersensitive cell death (HR) after avirulent pathogen infection giving rise to the runaway cell death (rcd) phenotype. This ROS-dependent phenotype pointed towards a putative involvement of the ROS produced during photosynthesis in the initiation and spreading of the lesions.</p><p>We report here that the rcd has a ROS-concentration dependent phenotype and that the light-triggered rcd is depending on the redox-state of the PQ pool in the chloroplast. Moreover, the lower stomatal conductance and catalase activity in the mutant suggested LSD1 was required for optimal gas exchange and ROS scavenging during EEE. Through this regulation, LSD1 can influence the effectiveness of photorespiration in dissipating EEE. Moreover, low and high SA levels are strictly correlated to lower and higher foliar H2O2 content, respectively. This implies an essential role of SA in regulating the redox homeostasis of the cell and suggests that SA could trigger rcd in lsd1 by inducing H2O2 production.</p><p>LSD1 has been postulated to be a negative regulator of cell death acting as a ROS rheostat. Above a certain threshold, the pro-death pathway would operate leading to PCD. Our data suggest that LSD1 may be subjected to a turnover, enhanced in an oxidizing milieu and slowed down in a reducing environment that could reflect this ROS rheostat property. Finally, the two protein disulphide isomerase boxes (CGHC) present in the protein and the down regulation of the NADPH thioredoxin reductase (NTR) in the mutant connect the rcd to a putative impairment in the reduction of the cytosolic thioredoxin system. We propose that LSD1 suppresses the cell death processes through its control of the oxidation-reduction state of the TRX pool. An integrated model considers the role of LSD1 in both light acclimatory processes and in restricting pathogen-induced cell death.</p> LSD1 Photooxidative stress Reactive oxygen species Light acclimation Photorespiration Salicylic acid, Plant physiology Växtfysiologi
53	Effects of High Nighttime Temperature and Role of Plant Growth Regulators on Growth, Development and Physiology of Rice Plants Mohammed, Abdul R. 2009 May 1900 (has links) Seasonally high nighttime temperatures (HNT) along the United States Gulf Coast and in regions of similar climate, during the critical stages of development, could reduce rice yield and quality. To study the effects of HNT on plant physiology, a method for applying a controlled heating treatment to plant canopies was developed using overhead infrared heaters, which are relatively inexpensive and are accurate, precise and reliable in rapidly controlling the temperature. The apparatus successfully maintained air temperatures within the set points plus/minus 0.5 degrees C, and was used for all the experiments. Several experiments were conducted to determine the response of various physiological parameters during and following exposure of rice plants to HNT (32 degrees C) or ambient nighttime temperature (ANT) (27 degrees C) starting from 2000 h until 0600 h, and with or without plant growth regulator treatments. The plant growth regulator treatments included alpha-tocopherol (vitamin E), glycine betaine (GB), and salicylic acid (SA), which play different roles in inducing thermo-tolerance in plants. High nighttime temperature had no effect on plant height, number of tillers and panicles, or rice net leaf photosynthetic rates. However, HNT increased leaf respiration (dark respiration in the night) (21%) and decreased membrane thermo-stability (60%), pollen germination (20%), spikelet fertility (18% as a % of total spikelets), grain length (2%), and grain width (2%). The HNT also hastened plant development. The combinations of these effects decreased rice yield by 90%. Moreover, under HNT, there were decreases in leaf chlorophyll concentration (7%) and nitrogen concentration (18%). Application of GB and SA increased total antioxidant capacity of the rice plants by 17%, thereby decreasing the leaf respiration rates, increasing membrane thermo-stability, pollen germination, and spikelet fertility, thus increasing the yield. High nighttime temperature decreased leaf starch concentration (14%), grain total nonstructural carbohydrate (TNC) concentration (9%), and grain extractable invertase activity (20%). Vitamin E- or GB-treated plants had greater grain soluble-sugar concentrations, whereas SA-treated plants had greater leaf soluble-sugar concentrations and lower grain TNC concentrations. Invertase activity was shown to be not rate limiting or required for sucrose degradation for starch synthesis in grain of 'Cocodrie' rice under short-term high nighttime temperatures exposures during grain filling. In conclusion, HNT decreased rice yield by increasing plant respiration, rate of crop development, and decreasing membrane thermo-stability, pollen germination, spikelet fertility and grain dimensions. Exogenous application of GB and SA increased yields under HNT, possibly acting through increased antioxidant levels, which might have protected the membranes and enzymes against heat-induced ROS-mediated degradation. α-tocopherol Glycine betaine Heat stress High nighttime temperature Rice Salicylic acid
54	Micropropagation of Hazelnut (Corylus species) Jyoti, Jyoti 04 September 2013 (has links) An efficient micropropagation protocol for large scale production of hazelnut plants is required for consistent supply of elite germplasm to support the growing industry in Ontario. The main focus of current research was to develop a bioreactor based micropropagation protocol for hazelnut multiplication. An integrated approach was developed to increase the multiplication rate by optimizing the nutrient medium supplements and culture technology using a temporary immersion bioreactor system (TIS). As compared to conventional semi-solid and liquid based culture system, the Liquid LabTM temporary immersion bioreactor system (LIS) showed a significant enhancement in the number of shoots (3.3 shoots/explant), shoot height, leaf area and chlorophyll content in micropropagated plantlets. Antioxidant supplements such as ascorbic acid and melatonin along with iron (460 µM FeEDDHA) significantly increased the shoot proliferation (5.5 shoots/explant). However, a much higher shoot proliferation (10.9 shoots/explant) was observed with the addition of aspirin (10 µM) in the presence of BA (17.6 µM). Among several hazelnut cultivars, HF-16 had the highest multiplication rate followed by Geneva and Epsilon. Medium supplemented with 10 µM IBA was the best for rooting of microshoots of HF-16 and the plantlets acclimatized in the green house with 80% survival rate. / Ontario Ministry of Agriculture and Food and Rural Affairs
55	The influence of exogenously applied 'anti-stress' agents in the upregulation of the drought response in Iraqi wheat varieties Kareem, Fakhriya Mohammed January 2017 (has links) Bread wheat (Triticum aestivum L.) is one of the most important cereal crops grown in the world. It has great importance because it constitutes a major source of carbohydrate for more than one third of the world’s population (Budak et al., 2013). In the last three decades, drought conditions are becoming more widespread in wheat production areas including Europe, Australia and Asia, and it is considered a major cause of reduced wheat growth and productivity in most developing countries with semi-arid climates. Drought constitutes the most important threat for wheat production in Iraq and especially for the Kurdistan Regional Governate owing to the limited source of water during at least some part of the growing period. Because wheat is considered a staple food and has economic importance for the Kurdistan Regional Government research is needed to determine the production capacity of Iraqi wheat varieties under drought stress and the potential for the maximization of the drought tolerance response. The soil moisture holding capacity of the intended growing medium was measured gravimetrically in pots with and without wheat plants and correlated with the soil capacitance measured using a TDR Theta Probe (Delta-T Devices). This was used to determine the available water content of the soil (AWC) and to control and manage the watering regimes during drought studies. The results of a study of the response of different cultivars of Iraqi wheat (Triticum aestivum L.) to watering regimes of 70% and 50% showed that drought stress had a significant effect on the biomass and yield traits especially tiller number and stem bundle weight compared to normal conditions. The highest significant difference was observed for cv. Tamooz 2 in comparison to Adana 99, but there was a little difference between cvs. Rizgary and Sham 6. The effect of the exogenous application of salicylic acid (SA) and molybdenum (Mo) on drought tolerance of cvs. Tamooz 2 and Adana 99, showed that Tamooz 2 had higher values for growth characteristics and higher yield potential when sprayed with a lower concentration of SA (1.44 mM) under well-watered conditions in comparison with Adana 99. The effect of spraying variety Tamooz 2 with SA at different growth stages indicated that biomass production and yield components (the number of spikes/pot, grain dry weight and average 1000 grain dry weight) significantly increased at both stem+flower as well as leaf+stem+flower sprayings for plants subjected to drought. Also, SA treatments at stem extension and flowering had a positive effect on the up-regulation of the drought response gene CBF/DREB under drought stress conditions. These findings indicate that agronomic treatments with exogenous applications of salicylic acid and molybdenum could help to reduce the effects of drought in the field.
56	Redox regulation of salicylic acid synthesis in plant immunity Li, Yuan January 2016 (has links) Salicylic acid (SA) is essential to the establishment of both local and systemic acquired resistance (SAR) against a wide range of phytopathogens. Isochorismate synthase 1 (ICS1) is the key enzyme involved in the synthesis of SA and it is transcriptionally activated by the regulatory proteins SAR deficient 1 (SARD1) and Calmodulin binding protein 60g (CBP60g). It has been demonstrated previously that the loss-of-function mutant, S-nitrosogluthione reductase 1-3 (gsnor1-3), increased cellular levels of S-nitrosylation. Significantly, accumulation of both free SA and its storage form SA-glucoside (SAG), were substantially reduced, disabling multiple SA-dependent immune responses. However, the molecular mechanism underlying this observation remains to be established. Our data suggests that the transcription of ICS1 and it regulators, SARD and CBP60g, are reduced in the gsnor1-3 mutant, implying that increased cellular S-nitrosylation blunts the expression of ICS1 by reducing the transcription of its activators. We demonstrated that SARD1 is S-nitrosylated in vitro resulting in inhibition of its DNA binding activity. Further, Cys438 of SARD1 was found to be the site of S-nitrosylation, demonstrated by the observation that the SARD1 C438S mutant was insensitive to NO regulation in regard to DNA binding activity. 571.7
57	Estudo experimental e ajuste de modelos para previsão da solubilidade sólido-líquido no sistema ácido salicílico-etanol-água. / Experimental study for adjustment of prediction model of solid-liquid solubility in salicylic acid-ethanol-water system. Maurício Mitsuo Uematsu 03 April 2007 (has links) Para representar o equilíbrio existem modelos termodinâmicos empíricos e semi-empíricos, porém nenhum deles tem aplicação generalizada. Muitos dos modelos utilizados para o equilíbrio sólido-líquido advêm dos modelos desenvolvidos para o equilíbrio líquido-vapor (ELV) e, em alguns casos, podem não representar adequadamente os sistemas reais, tornando-se mais críticos os desvios quando o sólido, ou o líquido, ou ambos, são polares. Para o estudo dos modelos e realizar as devidas comparações foram inicialmente realizados experimentos em laboratório com sistemas binários e ternários utilizando como solventes o etanol, a água e as suas misturas e como soluto o ácido salicílico, todas substâncias polares. Os dados experimentais foram obtidos utilizando uma variante do método isotérmico, tendo como sistemas binários: etanol-ácido salicílico e água-ácido salicílico e, como sistemas ternários as misturas dos solventes. Os experimentos envolveram a variação da concentração mássica de etanol em intervalos de 20%. A variação da temperatura foi feita em intervalos de 5°C de 20 a 55°C. A análise do total de 48 dados experimentais indicou que a solubilidade do ácido salicílico aumenta à medida em que a temperatura e/ou a concentração mássica de etanol no solvente aumenta. Esses dados foram utilizados no ajuste de diferentes modelos para ESL. Os modelos estudados foram: UNIFAC e GSP (de predição baseado no ELV), UNIQUAC, Wilson, NRTL (semi-empíricos de ajuste de parâmetros baseados no ELV), Nývlt e \'lâmbda\'h (semi-empíricos de ajuste de parâmetros baseados no ESL) e Margules (empírico de ajuste de parâmetros). Os resultados mostraram que os modelos de predição têm aplicação restrita quando aplicado ao sistema estudado. Entre os modelos de ajuste, o UNIQUAC resultou em menores desvios em relação aos dados experimentais, considerando-se toda a faixa de condições experimentais adotadas. Os resultados experimentais também foram utilizados no ajuste de um modelo baseado em rede neural, o qual foi utilizado para mapeamento do sistema e comparação com as previsões pelos modelos considerados. Simulações com rede neural resultaram em boa concordância com os resultados experimentais, indicando que tal modelo pode ser usado para prever solubilidade na faixa de condições do presente estudo. / The knowledge of solid-liquid equilibrium (SLE) is an important factor in crystallization and dissolution studies. In most of these systems equilibrium is represented by empirical and semi-empirical thermodynamical models, with no general application. Many models used in SLE result from models developed for vapor-liquid equilibrium (VLE) and in some cases these models do not represent real systems adequately, becoming critical when polar solids or liquids are present in the system. In the present work a study of thermodynamical models for SLE was carried out by comparing the performance of different models with experimental data of binary and ternary systems consisting of ethanol, water and their mixtures as solvents, and salicylic acid as solute. The experimental data were obtained using a variant of the isothermal method for the following binary systems: ethanol-salicylic acid and water-salicylic acid. In the study with ternary systems ethanol-water mixtures at different ratios were adopted as solvents, and salicylic acid was the solute. A total of 48 experiments were carried out by changing the ethanol mass fraction in the solvent from 0 to 100%, and the temperature from 20 to 55°C. The solubility of salicylic acid increases with the increase in the temperature and/or ethanol concentration in the solvent. The models considered in the study were: UNIFAC and GSP (prediction models based on vapor-liquid-equilibrium), UNIQUAC, Wilson and NRTL (semi-empirical models of fitted parameters based on vapor-liquid equilibrium), Nývlt and \'lâmbda\'h (semi-empirical models with fitted parameters based on SLE) and Margules (empirical model with fitted parameters). The results showed that the UNIQUAC model with fitted parameters can describe the SLE with reasonable accuracy, while all other methods resulted in poor agreement with the system\'s behavior, with systematic deviations from the experimental results. The system was also mapped with the use of a neural network model with parameters fitted to the experimental data. Simulation results with the neural network provided an accurate map of the system that can be used within the range of conditions considered in this study. Ácido salicílico Água Etanol Solubilidade sólido-líquido Ethanol Salicylic Acid Solubility Water
58	Estudo espectroeletroquímico do ácido acetilsalicílico e ácido salicílico e suas interferências na absorção de ferro in vitro / Spectroelectrochemical study of acetylsalicylic acid and salicylic acid and its interference over iron absorption in vitro Thiago Martimiano do Prado 14 September 2017 (has links) Os comportamentos espectroeletroquímicos do ácido acetilsalicílico (AAS) e seu produto de hidrólise, o ácido salicílico (AS), foram estudados em soluções aquosas nas regiões de pH ácido, neutro e alcalino. Resultados para experimentos de voltametria cíclica sugeriram possíveis processos de eletro-oxidação e eletro-redução dos fármacos. O monitoramento do espectro de absorbância na região do UV-vis, simultâneo à medida de carga envolvida na eletrólise, permitiu a identificação de processos redox e o cálculo do número de elétrons envolvidos, aplicando a Lei de Faraday. O fármaco mostrou-se estável em pH ácido, reduziu em pH neutro e oxidou em pH alcalino. Tanto no processo de eletro-redução como na eletro-oxidação, os mecanismos propostos estabelecem o envolvimento de 1 elétron para a identificação de mudanças no nível molecular. Estas foram observadas pelas alterações de espectros de absorbância na região do UV-vis. Técnicas complementares, ressonância paramagnética eletrônica (RPE) e espectroscopia de transmitância FT-IR, foram usadas para a caracterização dos produtos obtidos em experimentos de eletrólise. As respostas espectrofotométricas associadas à processos eletroquímicos permitiram o desenvolvimento de método espectroeletroquímico para a detecção do fármaco em amostras reais contidas em soluções com pH neutro, utilizando a técnica de voltabsormetria derivada linear (DLVA). A interação entre os fármacos e íons de ferro no ambiente do estômago, foi simulada em experimentos in vitro, empregando eletroquímica e espectrofotometria. Na presença do AAS ocorreram interações fracas sem a interferência para a absorção de ferro pelo organismo. Em contrapartida, o AS interagiu formando um complexo estável com o Fe3+, podendo ser apontado como um potencial interferente para a absorção de ferro provocando anemia em indivíduos vegetarianos que fazem uso contínuo deste fármaco. / The spectroelectrochemical behavior of acetylsalicylic acid (ASA) and its spin off hydrolysis, salicylic acid (SA), were studied in aqueous solutions in the acid, neutral and alkaline pH regions. Results for cyclic voltammetry experiments suggested a possible electro-oxidation and electro-reduction of the drugs. The monitoring of the absorbance spectra in the region of the UV-vis, simultaneously with the measurement of the charge involved in the electrolysis, allowed the identification of redox processes and the calculation of the number of electrons involved applying Faraday\'s Law. The drug was stable in acid solutions, reduced in neutral and oxidized in alkaline ones. In electro-reduction and electro-oxidation processes, the proposed mechanisms establish the involvement of 1 electron to identify changes at the molecular level. These were observed by changes in absorbance spectra in the UV-vis region. Complementary techniques, electronic paramagnetic resonance (EPR) and FT-IR transmittance spectroscopy were used to characterize the products obtained in electrolysis experiments. The spectrophotometric responses associated to the electrochemical processes allowed the development of a spectroelectrochemical method for the detection of the drug in real samples contained in solutions with neutral pH, using the technique of derivative linear voltabsorptometry (DLVA). The interaction between drugs and iron ions in the stomach environment was simulated in in vitro experiments using electrochemistry and spectrophotometry. In the presence of ASA, weak interactions occurred without interference for the absorption of iron by the organism. On the other hand, AS interacted to form a stable complex with Fe3+ and could be considered as a potential interfering agent for the iron absorption, causing anemia in vegetarian individuals who make continuous use of this drug. ácido acetilsalicílico ácido salicílico anemia espectroeletroquímica ferro acetylsalicylic acid anaemia iron salicylic acid spectroelectrochemistry
59	Salicylic acid-mediated potentiation of Hsp70 in tomato seedlings is modulated by heat shock factors Snyman, Marisha 20 August 2012 (has links) Ph.D. / In plants, salicylic acid (SA) is a signaling molecule that regulates disease resistance responses such as systemic acquired resistance (SAR) and the hypersensitive response (HR), and has been implicated in both basal and acquired thermotolerance. It has also been shown that SA enhances heat-induced Hsp/Hsc70 accumulation in plants. In this study, temperature studies revealed that heat shock (HS) at 40 °C for 30 min significantly induced Hsp/Hsc70 accumulation in 3-week old tomato (UC82B) seedlings. Time- and dose-responsive studies showed that 0.1 mM SA for 17 hrs was unable to induce Hsp/Hsc70 but in combination with HS significantly (P > 0.001) potentiated this response. To investigate the mechanism of SA-mediated, heat-induced Hsp/Hsc70 potentiation, tomato seedlings were treated with either SA alone, HS or both, before analyses of hsp70 mRNA, Hsf DNA-binding and gene expression of hsp70, hsfAl, hsfA2 and hsfEll. SA alone established Hsf DNA-binding, but was not accompanied by increased Hsp70 accumulation or expression of hsp70 mRNA. SA had no significant effect on hsfA2 and hsf81 gene expression, but increased the basal levels of hsfAl. In heat-shocked plants, Hsf DNA-binding was enhanced, and increased hsfAl, hsfA2 and hsfB1 expression preceded accumulation of Hsp70. The combined treatment of SA and HS resulted in potentiated Hsf DNA-binding, enhanced expression of hsp70, hsfAl, hsfA2 and hsfB1, leading to potentiated levels of Hsp/Hsc70. Since increased hsp70 and hsf gene expression coincided with increased levels of Hsp70 accumulation, it is likely that the SA-mediated potentiation of Hsp70 is due to the ability of SA to regulate Hsfs during HS. This study therefore proposes a mechanism for the potentiation of Hsp70 by SA in the presence of heat, which might contribute to our understanding of the role SA plays in the heat shock response and thermotolerance. Heat shock proteins. Plants, Effect of heat on. Tomatoes - Disease and pest resistance Salicylic acid.
60	Rust and drought effects on gene expression and phytohormone concentration in big bluestem Frank, Erin January 1900 (has links) Master of Science / Department of Plant Pathology / Karen A. Garrett / While plants are typically exposed to multiple stressors in the field, studies of genome-wide gene expression and phytohormone responses in wild plant species exposed to multiple stressors are rare. Our objectives were to determine the effects of drought and rust stress on gene expression in Andropogon gerardii, the dominant grass in tallgrass prairie, and associated levels of phytohormone production. In a factorial design, plants experiencing drought or non-drought conditions were either inoculated with the rust pathogen Puccinia andropogonis or not inoculated. Gene expression was evaluated with maize microarrays. Drought-stressed plants significantly decreased expression of genes associated with photosynthesis and the hypersensitive response, while expression of genes associated with chaperones and heat-shock proteins increased. No significant differences in gene expression in response to the rust treatment were detected using a mixed model analysis of variance and false discovery rate protection, probably because of the low infection rate. Phytohormone production increased when both stresses were present. The rust treatment significantly increased benzoic acid (BA) production in the presence of drought, while the drought treatment alone significantly increased salicylic acid (SA) production. Leaf tips usually had higher levels of all phytohormones in all treatments and the leaf section evaluated had a larger effect on phytohormone level than did the treatments applied. Andropogon gerardii Puccinia andropogonis Gene expression Salicylic acid Jasmonic acid Drought Agriculture, Plant Pathology (0480)

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