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141	Análise de metabólitos e proteínas totais em folhas de Eucalyptus grandis durante a infecção por Puccinia psidii / Analysis of total metabolites and proteins in Eucalyptus grandis leaves during the infection by Puccinia psidii Marques, Felipe Garbelini 06 April 2016 (has links) Os mecanismos moleculares envolvidos na resistência de plantas contra patógenos são um tema bastante discutido no meio acadêmico, sendo o objetivo maior dos estudos a diminuição das perdas de produtividade provocadas por doenças em plantações do mundo todo. Muitos modelos de interação patógeno-hospedeiro foram propostos e desenvolvidos priorizando plantas e culturas de rápido desenvolvimento com ciclo de vida curto. Espécies de ciclo longo, porém, devem lidar durante anos - ao menos até a idade reprodutiva - contra o ataque de bactérias, fungos e vírus, sem contar, nesse meio tempo, com recombinações genéticas e mutações que tornariam possível o escape contra as moléstias causadas por microrganismos. Assim, como alternativa aos modelos usuais, o presente trabalho estudou um diferente par de antagonistas: Eucalyptus grandis e Puccinia psidii. Apesar da contribuição de programas de melhoramento genético, o patossistema E. grandis X P. psidii ainda é pouco descrito no nível molecular, havendo poucos estudos sobre os processos e as moléculas que agem de forma a conferir resistência às plantas. Assim, buscando o melhor entendimento da relação entre E. grandis X P. psidii, o presente trabalho estudou a mudança dos perfis de proteínas e metabólitos secundários ocorrida nos tecidos foliares de plantas resistentes e susceptíveis durante a infecção pelo patógeno, com o auxílio da técnica de cromatografia líquida acoplada à espectrometria de massas. Os resultados obtidos indicam que as plantas resistentes percebem a presença do patógeno logo nas primeiras horas pós-infecção, produzindo proteínas ligadas à imunidade (HSP90, ILITYHIA, LRR Kinase, NB-ARC disease resistance protein). Essa percepção desencadeia a produção de proteínas de parede celular e de resposta oxidativa, além de modificar o metabolismo primário e secundário. As plantas susceptíveis, por outro lado, têm o metabolismo subvertido, produzindo proteínas responsáveis pelo afrouxamento da parede celular, beneficiando a absorção de nutrientes, crescimento e propagação de P. psidii. No trabalho também são propostos metabólitos biomarcadores de resistência, moléculas biomarcadoras de resposta imune e sinais da infecção por patógeno em E. grandis. / The molecular mechanisms involved in the plant resistance against pathogens is a well-discussed theme in the academy, overall objecting to diminish worldwide plantation yield losses caused by diseases. Many pathogen-host models were proposed and developed prioritizing model plants and fast growing crops with short life cycles. However, long life cycle species need to cope with the attack of bacteria, fungi and virus throughout many years, or at least until its reproduction period, being unable, meanwhile, to escape the attack of these microorganisms through genetic recombination and mutation. Therefore, as an alternative to the usual models, the present work studied a different pair of antagonists: Eucalyptus grandis and Puccinia psidii. Despite the contribution of plant breeding programs, the E. grandis X P. psidii pathosystem is still poorly described in the molecular level, with few studies about processes and molecules that confer resistance to the plants. Thus, in order to better understand the E. grandis X P. psidii relationship, this project aimed to study the proteome and metabolome changes that occur on leaf tissues of resistant and susceptible plants infected by the pathogen, with the aid of the liquid chromatography coupled to mass spectrometry technique. The results show that the resistant plants notice the presence of the pathogen shortly after being infected, producing immunity related proteins such as HSP90, ILITYHIA, LRR Kinase, NB-ARC disease resistance protein. This perception triggers the production of cell wall and oxidative burst proteins, also changing the primary and secondary metabolism. On the other hand, susceptible plants have its metabolism subverted, producing proteins responsible for the cell wall loosening, favoring P. psidii nutrient uptake, growth and spread. Metabolite biomarkers, Immune response biomarker molecules and infection signals triggered by P. psidii on E. grandis are also proposed on this work. Ecualyptus grandis Eucalyptus grandis Puccinia psidii Puccinia psidii Espectrometria de massas Ferrugem do eucalipto Interação planta-patógeno Mass spectrometry Metabolômica Metabolomics plant-pathogen interaction Proteômica Proteomics rust
142	Potentiel évolutif et déterminisme génétique de caractères d’agressivité et morphologiques de l’agent de la rouille du peuplier, Melampsora larici-populina / Evolutionary potential and genetic underpinnings of aggressiveness and morphological traits in the poplar rust fungus, Melampsora larici-populina Maupetit, Agathe 18 December 2018 (has links) Pour lutter contre les agents phytopathogènes, la sélection de plantes résistantes est la stratégie la plus rentable et la plus écologique. Les résistances quantitatives, basées sur des mécanismes de résistances complexes, sont connues pour être sujettes à l’érosion, en cas d’évolution de l’agressivité des agents pathogènes. L’objectif de ce travail basé sur le pathosystème peuplier – rouille du peuplier (Melampsora larici-populina) est d’évaluer le potentiel évolutif des caractères d’agressivité et morphologiques du parasite par des approches de génétique quantitative et d'identifier les bases génétiques par génétique d'association. Pour estimer la plasticité, l’héritabilité et les compromis évolutifs d’un ensemble de caractères quantitatifs, nous avons précisément mesuré leurs variations dans quatre populations contrastées du champignon. Nous avons montré que le volume des spores est un caractère héritable qui évolue rapidement. La quantité de mycélium in planta est aussi héritable mais très conservée car sous sélection stabilisante dans les populations étudiées. Le temps de latence, la taille des lésions et le taux de sporulation présentent une héritabilité faible, ce qui explique l’absence d’évolution observées au cours du temps pour ces trois caractères. Les caractères liés à la fonction de sporulation semblent être les plus plastiques le long d’un gradient de maturité foliaire. Cependant, l’absence de mise en évidence de compromis évolutifs ne nous a pas permis d’identifier des caractères d’agressivité qui seraient les meilleures cibles pour les résistances quantitatives chez le peuplier. Si aucune base génétique de ces caractères quantitatifs n’a été mise en évidence, nous avons localisé un locus d’avirulence potentiel (Avr7) sur lequel une caractérisation fonctionnelle est envisagée / To control plant pathogens, breeding resistant plants is the most cost-effective and ecological strategy. Quantitative resistances, which are based on complex plant mechanisms, are known to be exposed to erosion through an increase of pathogens aggressiveness. Through the study the poplar – poplar rust (Melampsora larici-populina) pathosystem, this work aims to estimate the evolutionary potential of aggressiveness and morphological traits using quantitative genetic approaches and to identify molecular bases through genome-wide association study. To estimate plasticity, heritability, and trade-offs for a set of quantitative traits, we precisely measured their variation in four contrasted pathogen populations. It appeared that spore volume is highly heritable and evolved rapidly. In planta mycelium quantity is also heritable but constant because of stabilizing selection occurring in the studied populations. Latent period, lesion size and sporulation rate exhibit low heritability, which explains the absence of evolution during the studied time period. Traits involved in the sporulating function seem to be the most plastic ones along a leaf maturity gradient. However, the lack of evidence of trade-offs did not allow us to identify aggressiveness traits that would be the best targets for the construction of durable resistance in poplar. No genetic underpinning has been found for quantitative traits, but we have identified a potential avirulence locus (Avr7), opening the way for its functional characterization Champignon phytopathogène Génétique quantitative Évolution Pouvoir pathogène Fungal plant pathogen Quantitative genetics Evolution Pathogenicity GWAS (genome-wide association study) 579.5
143	Molecular Analysis of Turnip Crinkle Virus Coat Protein Mutations Zhan, Ye 30 April 2002 (has links) TCV (Turnip crinkle virus) coat protein is required for the resistance response in Arabidopsis thaliana Di-17 plants. An aspartate to asparagine mutation at amino acid four of the coat protein is sufficient to result in resistance-breaking. To determine the essential chemical properties responsible for the induction of resistance, a series of site-directed mutants were produced. Serine as well as asparagine at amino acid four induces systemic disease on both Di-3 and Di-17 plants; however, replacement of aspartate with glutamate retains the ability to induce the HR (hypersensitive response) and resist TCV infection with rapid and strong induction of PR-1 gene. These data suggest that the negative charge at the fourth amino acid of the coat protein is critical for the induction of resistance. Taken together with other mutagenesis research, the N-terminus of the coat protein appears to be the sole viral recognition element. The A. thaliana TIP protein is suggested to be involved in resistance, mainly through its C-terminus. Interestingly, one of the resistance-breaking mutants (D4N) produces a HR on Di-3 plants that are normally susceptible. The Di-3 TIP protein has several differences from the Di-17 TIP. To detect whether the delayed HR is related to interaction between Di-3 TIP and D4N mutation, a yeast two-hybrid assay was attempted. Interactions have not yet been detected. There are a number of possible explanations. protein interaction coat protein resistance arabidopsis turnip crinkle virus Plants Virus resistance Plant-pathogen relationships Genetic aspects Arabidopsis thaliana Turnip crinkle virus
144	Extrato padronizado de Ruta graveolens L.: avaliação de seu potencial no controle da brusone em arroz Reis, Karinna Bannach 18 December 2013 (has links) Submitted by Jaqueline Silva (jtas29@gmail.com) on 2014-09-15T20:06:22Z No. of bitstreams: 2 license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Dissertação Karinna Bannach Reis.pdf: 3955087 bytes, checksum: fbfd1023491588a9a5495cd281d72a41 (MD5) / Approved for entry into archive by Jaqueline Silva (jtas29@gmail.com) on 2014-09-15T20:06:45Z (GMT) No. of bitstreams: 2 license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Dissertação Karinna Bannach Reis.pdf: 3955087 bytes, checksum: fbfd1023491588a9a5495cd281d72a41 (MD5) / Made available in DSpace on 2014-09-15T20:06:45Z (GMT). No. of bitstreams: 2 license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Dissertação Karinna Bannach Reis.pdf: 3955087 bytes, checksum: fbfd1023491588a9a5495cd281d72a41 (MD5) Previous issue date: 2013-12-18 / Ruta graveolens has been successfully applied for many human diseases treatment and promises a well succeed alternative for plant diseases control because it has also phytoalexins in its composition. The aim of this study was to standardise the R. graveolens liquid extract and evaluate its potential for controlling rice (Oryza sativa) leaf blast (Magnaporthe oryzae). The drug has been characterized, the liquid extract obtained and the methodology for quantifying the standards components, furanocoumarins psoralen and bergapten, validated by high performance liquide chromatography. The components of essential oil obtained from standardized liquid extract were characterized by gas chromatography-mass spectrometry. In a completely randomized design, conducted in artificial hydrophobic surface with three replications and eleven treatments composed of M. oryzae conidial suspension (105 con.ml-1) mixed with R. graveolens standardized extract (0.01 to 0.10 g.mL-1), or furocoumarins psoralen (0.18 to 1.82 μg. mL-1), or bergapten (0.29 to 2.91 μg. mL-1), or water (control). It was evaluated the inhibition of conidial germination and appressorium formation and the median lethal dose (LD50). A second assay, in a completely randomized design in three replications was conducted in greenhouse conditions. It was composed of 21 days old rice plants, which were sprayed with a mixture containing M. oryzae conidial suspension (3x105 con.ml-1) and R. graveolens extract, without dilution, or furocoumarins psoralen (18.26 μg. mL-1), or bergapten (29.14 μg. mL-1), or water (control). Nine days after inoculation, leaf blast severity was scored with a diagrammatic scale, the data were statistically analyzed and means compared. The standardized plant extract inhibited M. oryzae conidial germination (LD50=0.237mg) and appressorium formation (LD50=0.121 mg) up to 100% and reduced 80.84% of leaf blast. By fluorescence microscopy it was possible to observe that standardized plant extract did not damage M. oryzae cell wall and plasma membrane, indicating another type of interaction to inhibit conidia development. Isolated standards furanocoumarins psoralen and bergapten did not inhibit conidial germination and appressorium formation and reduce leaf blast severity proportionally, suggesting that synergistic interactions between extract and essential oil components were responsible for the success of R. graveolens in suppressing rice disease, making it an alternative to compose rice blast management. / Ruta graveolens é utilizada com sucesso no tratamento de diversas patologias humanas e possui potencial para o controle alternativo de fitopatógenos, pois também apresenta fitoalexinas em sua composição. O objetivo deste estudo foi padronizar o extrato vegetal líquido de R. graveolens e avaliar seu potencial para o controle da brusone foliar. O material vegetal foi caracterizado, o extrato líquido obtido e a metodologia para a quantificação dos padrões psoraleno e bergapteno foi validada por cromatografia líquida de alta eficiência. Os componentes do óleo essencial obtidos a partir do extrato líquido padronizado foram caracterizados por cromatografia gasosa acoplada à espectrometria de massas. No ensaio conduzido em superfície hidrofóbica artificial, com três repetições e onze tratamentos, 10 μL da suspensão de conídios de Magnaporthe oryzae (105 con/mL) foram misturadas com o extrato vegetal padronizado (0,01 a 0,10 g/mL), ou as furanocumarinas psoraleno (0,18 a 1,82 μg/mL) e bergapteno (0,29 a 2,91 μg/mL), ou água (controle). Avaliou-se a inibição da germinação conidial e da formação dos apressórios determinando-se a dose letal capaz de inibir 50% dos indivíduos (DL50). No experimento conduzido em casa de vegetação e com três repetições, plantas de arroz com 21 dias após plantio foram pulverizadas com uma suspensão de conídios de M. oryzae (3x105 com/mL) misturada com extrato vegetal padronizado sem diluição, ou psoraleno (18,26 μg/mL), ou bergapteno (29,14 μg/mL), ou água (controle). Após nove dias da inoculação, avaliou-se a severidade de brusone foliar com uma escala de 10 graus, os dados foram analisados estatisticamente e as médias comparadas. O extrato vegetal padronizado inibiu a formação de tubo germinativo (DL50= 0,237 mg) e a formação de apressório (DL50= 0,121 mg) de M. oryzae em até 100%, e reduziu a severidade de brusone nas folhas em 80,84%. Através de microscopia de fluorescência, não foi observada ação do extrato padronizado em membrana plasmática e parede celular de M. oryzae, o que indica outro tipo de interação para inibir o desenvolvimento do conídio. Os padrões psoraleno e bergapteno não inibiram proporcionalmente a germinação e a formação de apressório, como também não reduziram a severidade de brusone nas folhas em sua forma isolada, o que sugere que interações sinérgicas entre os diversos componentes do extrato e do óleo essencial de R. graveolens foram responsáveis pelo sucesso do extrato padronizado em suprimir a brusone foliar, tornando-o uma alternativa para compor o manejo de brusone em arroz. Padronização Furanocumarina Psoraleno Bergapteno Óleo essencial Fitopatógeno Magnaporthe oryzae Standardization Furanocoumarin Psoralen Bergapten Essential oil Plant pathogen
145	Estudo molecular do desenvolvimento de Puccinia psidii Winter in vitro e no processo de infecção em Eucalyptus grandis / Molecular study of the development of Puccinia psidii Winter in vitro and during its infection in Eucalyptus grandis Bini, Andressa Peres 05 October 2016 (has links) O Brasil é um dos principais produtores mundiais de Eucalyptus spp., mas a produção dessa cultura tem sido comprometida por perdas causadas pelo fungo Puccinia psidii Winter, agente causal da ferrugem do eucalipto. Compreender os mecanismos moleculares da patogenicidade desse fungo, conhecer a composição química de variedades de Eucalyptus spp. resistentes e suscetíveis ao fitopatógeno e ter em mãos uma ferramenta de diagnóstico precoce da doença são conhecimentos de fundamental importância para o desenvolvimento de estratégias de controle do fitopatógeno. Uma das principais barreiras que limitam o estudo molecular de P. psidii é o fato dessa espécie ser biotrófica obrigatória, tendo seu desenvolvimento in vitro limitado. Estudos de investigação a respeito de fungos biotróficos obrigatórios são realizados principalmente in planta e em estágios tardios da doença, deixando grande parte do conhecimento dos processos iniciais de infecção desconhecidos. Informações a respeito dos estágios iniciais da infecção, nos quais diversas estruturas típicas são formadas e podem indicar importantes características sobre fungos biotróficos, são de difícil acesso em estudos in planta em função da grande quantidade de material vegetal em relação à quantidade de material do fitopatógeno, que não é passível de ser removido completamente das amostras analisadas. Dessa forma, o presente projeto de pesquisa foi realizado com os objetivos de desenvolver um protocolo para induzir a germinação e a morfogênese estrutural in vitro de P. psidii, identificar genes candidatos relacionados à diferenciação das estruturas de infecção e de fatores de virulência, caracterizar os metabólitos presentes nas ceras cuticulares de folhas de Eucalyptus grandis resistentes e suscetíveis à ferrugem do eucalipto e desenvolver uma metodologia sensível e eficaz para detectar, quantificar e monitorar a presença de P. psidii em folhas de Eucalyptus grandis assintomáticas. Os dados obtidos no presente trabalho podem auxiliar a compreensão da interação planta-patógeno durante os estágios iniciais de infecção da ferrugem e colaboram para o entendimento da biologia do fitopatógeno para que no futuro sejam desenvolvidas melhores estratégias de controle de P. psidii em plantios de eucalipto. / Brazilian production of Eucalyptus spp. is one of the greatest in the world but it has been affected by Puccinia psidii Winter, the causal agent of eucalyptus rust. The comprehension of molecular mechanisms of pathogenicity and chemical composition of resistant and susceptible eucalyptus plants as well as having a molecular tool for early detection of the disease in field can be used for the development of improved control strategies against this phytopathogen. Molecular studies of P. psidii is limited because it is an obligate biotrophic fungus with limited in vitro development. Biotrophic fungi investigations are made mainly in planta at late developmental stages of the disease. This way, most information of early stages of infection as the development of specialized structures of biotrophic fungi are little understood. The study of early stages of the infection process of biotrophic fungi in planta is hampered by the high amount of plant material in relation to fungi material which is difficult to be obtained in an isolated form for analysis. In this work we developed a protocol to increase in vitro germination and structural differentiation of P. psidii and used this protocol to obtain isolated fungi material for the identification of candidate genes related with virulence factors and initial structural morphogenesis. Moreover, we analyzed the composition of metabolites present in the cuticular wax of leaves from resistant and susceptible E. grandis plants and developed a methodology for the detection of P. psidii in asymptomatic leaves of Eucalyptus grandis. Data obtained in this work help the comprehension of E. grandis-P.psidii interaction at early stages of the infection process and can be used for the development of improved control strategies of eucalyptus rust. in vitro germination Ceras cuticulares cuticular waxy Diagnose molecular Eucalyptus rust Ferrugem do eucalipto Germinação in vitro Interação planta-patógeno molecular diagnoses plant-pathogen interaction
146	Análise da expressão gênica de Arabidopsis thaliana em resposta ao Citrus leprosis virus C e ao seu vetor Brevipalpus phoenicis / Gene expression analysis of Arabidopsis thaliana in response to Citrus leprosis virus C and its vector Brevipalpus phoenicis Arena, Gabriella Dias 30 May 2014 (has links) A leprose dos citros, principal doença viral que afeta a citricultura no Brasil, é causada pelo Citrus leprosis virus C (CiLV-C, gênero Cilevirus). CiLV-C possui um genoma bipartido de RNA de fita simples, polaridade positiva, que codifica para seis proteínas. O vírus é transmitido de planta a planta por ácaros Brevipalpus phoenicis e pode infectar mais de 40 espécies vegetais, produzindo lesões localizadas cloróticas ou necróticas ao redor do sítio de inoculação pelo ácaro. Invariavelmente, o patógeno não realiza movimento sistêmico em nenhuma de suas hospedeiras conhecidas. Para se revelar os mecanismos moleculares que determinam a atípica interação vírus/ácaro/planta, as atividades das principais vias de defesa foram avaliadas durante a infestação de A. thaliana com ácaros avirulíferos e virulíferos para o CiLV-C. A expressão de 19 genes marcadores associados às respostas de defesa do hospedeiro foi verificada mediante PCR quantitativo (RT-qPCR) em um experimento de time course (6, 12 e 24 horas após a infestação, e no momento do aparecimento dos sintomas de leprose). As análises demostraram que os genes envolvidos na via do ácido salicílico (SA) foram induzidos durante a interação com o ácaro e com o vírus. O perfil de expressão dos genes desta via durante a infestação com ácaros virulíferos foi similar ao observado com ácaros avirulíferos, porém a resposta da planta a ambos os estímulos foi mais intensa. Ademais, ambas as vias do ácido jasmônico e etileno foram ativadas durante a interação com o ácaro e reprimidas ao longo da infecção com o vírus, sugerindo uma interferência antagonística mediada pela via do SA. O mecanismo de silenciamento de RNA foi regulado de maneira diferencial em resposta à interação com ácaros avirulíferos e virulíferos. Diante da infecção viral, em tempos iniciais da infecção, as plantas responderam com a ativação de uma primeira linha de defesa mediada por AGO1, e depois alternaram para uma segunda linha de defesa mediada por AGO2. Os resultados indicam a ativação de um processo multifatorial em resposta ao CiLV-C e ao ácaro B. phoenicis em A. thaliana. / Citrus leprosis, the main viral disease affecting citrus orchards in Brazil, is caused by Citrus leprosis virus C (CiLV-C, genus Cilevirus). CiLV-C has a bipartite genome of singled stranded positive RNA, which encodes six proteins. CiLV-C is plant-to-plant transmitted by Brevipalpus phoenicis mites and can infect more than 40 plant species, invariably producing localized chlorotic or necrotic lesions around the site of feeding of the viruliferous mites. Viral long distance movement in its hosts is not accomplished. To unveil the mechanisms determining the unique characteristic of the virus/mite/plant interaction, activities of main plant defense pathways were evaluated during aviruliferous and CiLV-C viruliferous mite infestation in Arabidopsis thaliana. The expression of 19 marker genes involved in defense responses along a time course experiment (6, 12 and 24 hours after infestation, and after appearance of leprosis symptoms) was assessed by RT-qPCR. Analyses showed that genes involved in the salicylic acid (SA) pathway were up-regulated during plant interaction with mite and virus. The SA pathway expression profile observed at the infestation by viruliferous mites resembled those observed for the aviruliferous mites, but plant response to both stimuli was stronger. Both the jasmonic acid and ethylene pathways were activated during mite/plant interaction and were repressed at the course of infection with CiLV-C, suggesting an antagonistic effect mediated by the activated SA pathway. Gene silencing mechanism was differentially regulated in response to both aviruliferous and viruliferous mites. Upon viral infection, plants responded with the activation of an AGO1-mediated first defense line, in early times of infection; and then switched to an AGO2-mediated defense. Results indicate the activation of a multifactorial process in response to CiLV-C and B. phoenicis mites in A. thaliana. A. thaliana; RT-qPCR A. thaliana; RT-qPCR Cilevirus Cilevirus CiLV-C CiLV-C defense pathways Interação planta-patógeno-vetor model plant plant-pathogen-vector interaction Planta modelo Vias de defesa
147	Interactions between natural enemies and the dioecious herb Silene dioica Pettersson, Viktoria January 2009 (has links) About 6% of all angiosperms are dioecious. This separation of sexual function to male and female individuals, and the fundamentally different patterns of reproductive resource allocation that follows that separation, are thought to have important ecological and evolutionary consequences for plant enemy interactions. I have studied whether intersexual differences in susceptibility to natural enemies can be explained by intersexual differences in resource allocation. In cases when sexual dimorphic traits form the target resource of a particular enemy I expected the enemy to select the best resource. The study system is the perennial dioecious herb, Silene dioica (Caryophyllaceae) and three of its specialist natural enemies, two insect herbivores the fly Delia criniventris (Anthomyiidae) and the twirler moth Caryocolum viscariella (Gelechiidae) and one systemic anther smut fungus Microbotryum violaceum. All three share the same food recourse, the floral stems, of their host plant. I studied the interaction on nine islands in a rising Bothinan archipelago over seven consecutive years. Both herbivores attacked female plants more than male plants (D. criniventris, 32.8% females, 30.7% males; C. viscariella, 4% females, 2% males). This attack pattern was consistent over years and islands and also correlated with a number of sexually dimorphic traits suggesting that females offer the better resource. Herbivore attack had no effect on plant survival but a significant effect on re-flowering the following year. Non-attacked females had an estimated mean re-flowering rate of 30.2%, and non-attacked males of 31%. Herbivore-attacked females had an estimated re-flowering rate of 46% compared with 38.4% for males. Females showed a stronger compensatory response to attack and tended to re-flower more often than males. Attack rates differed markedly in the different stages of primary succession. They were consistently higher in the youngest zone and decreased in parallel to progressing succession. This zonal pattern of decreasing attack rates correlated with several plant attributes, a decrease in plant size and nitrogen content, and an increased content of secondary compounds, but not to host plant density. We failed to come up with a simple explanation for the spatial structure with chronic high attack rates in the younger zones. However, the consistent patterns in attack rate suggest that a suite of abiotic and biotic factors interact and reinforce the strength and direction of selection. In general females were more frequently diseased by the anther smut Microbotryum violaceum than males with two exceptions. Disease frequencies were male biased on islands with low disease levels and in one of the seven study years. The change in disease frequencies from male to female bias confirm earlier studies suggesting that the relative contribution of the two components of infection risk, disease encounter and per contact infection probability can vary with population disease level. The change in the proportions of diseased males and females that was observed in one of the study years, followed a year of extreme weather conditions (prolonged drought). Both sexes showed a similar decline in flowering but diseased females decreased more than diseased males. This difference in response can be explained if considering that disease is more resource demanding in females than in males. Except for resources needed for mycelial growth and spore production, in females resources are also needed to restructure their sex expression and produce anthers. My study shows (i) that in dioecious species traits that are sexually dimorphic are of great importance for understanding the outcome of interactions with natural enemies, (ii) that the strengths and directions of enemy-host plant interactions are strongly shaped by both biotic and abiotic conditions. Silene dioica Delia criniventris Caryocolum viscariella Microbotryum violaceum plant-herbivore interactions plant -pathogen interactions sex bias sex rato successional gradients fitness effects Skeppsvik Archipelago Terrestrial ecology Terrestisk ekologi
148	Non-target Effects of Genetically Modified Trees Blomberg, Patrik January 2007 (has links) To date, few studies have focused on the effects of genetically modified trees (GM trees) on the environment. One concern with GM trees is that they may have unanticipated effects on non-target organisms, i.e. effects on organisms that are not direct targets of the genetically modified trait. The main objective of this thesis was to study potential non-target effects from the interaction between GM trees and natural enemies, including phytopathogens and herbivorous insects. To study this I used a system consisting of GM trees featuring changes in growth-related characteristics, and naturally occurring enemies. The GM trees used were the aspen hybrids Populus tremula x tremuloides: one unmodified wild type clone T89 (control) and transgenic lines with altered expression of gibberellin (GA 20-oxidase), sucrose (SPS) or pectin (PME); and Populus tremula x alba: one unmodified wild type clone INRA 717-1-B4 (control) and lines modified to suppress the activity of the enzymes in the lignin biosynthetic pathway, i.e. CAD, COMT, CCR or CCoAOMT. The natural enemies used were the parasitic phytopathogens Melampsora pinitorqua, M. populnea and Venturia tremulae, and the herbivorous leaf-beetle Phratora vitellinae. To address this question inoculation experiments, feeding preference experiments, analyses of secondary chemistry and field inventories were performed. The results of the studies showed that the GM trees significantly affected the interaction with the natural enemies, both in the laboratory as well as in the field. For instance, both M. pinitorqua and V. tremulae showed an altered disease incidence on the GM trees of P. tremula x tremuloides compared to the unmodified wild type T89, where all tested transgenic lines exhibited altered susceptibility to the pathogens. However, there were also differences in aggressiveness to the aspens depending on pathogen population. The results from the field inventory showed that lines within all tested transgenic construct, COMT, CAD, CCoAOMT and CCR of P. tremula x alba differed significantly from the wild type INRA 717-1-B4 in susceptibility to M. populnea. In addition, the susceptibility to the rust also differed significantly between lines carrying the same transgenic constructs. Furthermore, we found that overexpression of SPS in P. tremula x tremuloides, unintentionally induced changes in plant secondary chemistry, where the GM-line SPS33A exhibited the largest deviation from the wild type T89 in contents of plant phenolics and nitrogen, and that these changes coincide with a concurrent decrease in herbivory by P. vitellinae on this line. I argue that the altered interactions are the result of physiological changes in the trees. They can originate from direct effects i.e. altered expression of the modified trait, indirect effects of the genetic modification process e.g. pleiotropy, or effects from the transformation process e.g. position effects, to which the tested natural enemies respond. The result stresses the importance of further research on the causes and mechanisms responsible for the altered interaction between GM trees and non-target organisms, as well as evaluating the potential environmental effects of cultivation of GM trees in the field. Such research will require collaboration between researchers from different disciplines, such as plant ecology and physiology, functional genomics, proteomics and metabolomics. Genetically modified GM trees secondary metabolism phytochemistry Populus transgenic non-target effects natural enemies plant-pathogen/herbivore interaction environmental effects parasitic fungi herbivorous insect Terrestrial ecology Terrestisk ekologi
149	Dissection of defense responses of skl, an ethylene insensitive mutant of Medicago truncatula Pedro, Uribe Mejia 15 November 2004 (has links) The interactions between Medicago truncatula and Phytophthora medicaginis were examined using skl, a mutant blocked in ethylene perception, and a range of wild accessions of this plant species. P. medicaginis infection of M. truncatula plants resulted in compatible responses, whereas the mutant genotype was found to be hyper-susceptible to the pathogen. Phytophthora reproduction and colonization rates of Medicago tissues supported this conclusion. Infection of skl with different pathogens reinforced this observation. Ethylene production in infected A17 and skl roots showed reduced ethylene evolution in the mutant and suggested that a positive feedback loop, known as autocatalytic ethylene production, amplified the ethylene signal. To complement the study, expression analyses of defense response genes in this interaction were studied by real time RTPCR of Phytophthora-infected and mock-infected roots. The genes analyzed were PAL, CHS, IFR, ACC oxidase, GST, and PR10. The sequences needed for the analysis were found through the scrutiny of the M. truncatula EST database employing phylogenetics and bio-informatics tools. In A17 all the genes studied were up-regulated, although the specific gene expression patterns differed. The comparison of gene expression between A17 and skl genotypes allowed the differentiation between ethylene-dependent and ethylene-independent responses. Discrete results showed that ACC oxidase homologues were downregulated in the ethylene perception mutant, corroborating the ethylene observations. However, the expression of genes involved in the phenylpropanoid metabolism was increased in skl relative to A17, suggestive of an antagonism between the ethylene perception pathway and the regulation of the phenylpropanoid pathway. This result implied that Medicago phytoalexins accumulate in the disease interaction, but raised questions about their role in resistance to Phytophthora infection. This study establishes a link between mechanisms that regulate symbiotic infection and the regulation of disease resistance to Oomycete pathogens, especially P. medicaginis. The results served to identify a series of Phytophthora-induced genes, which remain pathogen-responsive even in the absence of a functional ethylene perception pathway. While it is possible that the products of these genes are involved in resistance to P. medicaginis, the present results demonstrate that ethylene perception is required for resistance. Plant-Pathogen Interactions Legume-Microbe Interactions Medicago truncatula skl mutation Ethylene insensitivity Oomycetes-Phytophthora medicaginis transcription profiling Expressed Sequence Tags Real Time PCR
150	Involvement of poly(A)-binding and heat shock 70 kDa proteins in Turnip mosaic virus infection Dufresne, Philippe J. January 1900 (has links) Thesis (Ph.D.). / Written for the Dept. of Plant Science. Title from title page of PDF (viewed 2008/01/12). Includes bibliographical references.

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