Global ETD Search

161	Caracterização das plantas transgênicas de silenciamento e de superexpressão do gene 092H06 e estudo da sua proteína recombinante / Characterization of transgenic plants silencing and overexpression the 092H06 gene and the study oh its recombinant protein. Viviani Cossalter 21 November 2012 (has links) A eficiência da reprodução sexual de plantas depende do correto desenvolvimento dos órgãos sexuais: estame e pistilo. Mecanismos moleculares complexos controlam a proliferação e expansão celular que resultam no correto desenvolvimento destes órgãos. Em nosso laboratório foi identificado um gene preferencialmente expresso no pistilo de Nicotiana tabacum, o gene 092H06. Este gene codifica uma pequena proteína de 68 aminoácidos, e função desconhecida. Análises anteriores sugerem que o produto proteico do gene 092H06 seja responsável por inibir o processo de expansão celular nos órgãos reprodutivos (Brito,2010). Para compreender o papel deste gene, no desenvolvimento do pistilo, foram realizados experimentos de qRT-PCR para determinar se os níveis de expressão de genes para -expansina, -expansina, ciclina B1.2 e actina, ligados aos processos de divisão e expansão celular, em plantas transgênicas de silenciamento e superexpressão do gene 092H06. Foram realizadas análises morfológicas nos estigmas/estiletes e ovários das plantas transgênicas de segunda geração (T2), por microscopia óptica. Os resultados mostram uma tendência de aumento no volume das células tanto nas plantas transgênicas de silenciamento, como nas de superexpressão. Entretanto, nas plantas de silenciamento ocorreu um aumento visível das estruturas reprodutivas, o que não foi observado nas plantas de superexpressão. Adicionalmente, foram realizados experimentos de citometria de fluxo, para verificar a ocorrência de endorreduplicação. Os resultados mostraram que não ocorreu endorreduplicação nas células das plantas transgênicas. No screening de uma biblioteca de duplo híbrido, usando 092H06 como isca, foram encontrados 4 candidatos a parceiros de interação: 1) biotin/lipolyl attachmente domain-containing protein; 2) unknown protein; 3) trypsin proteinase inhibitor precursor e 4) RING/U-box. Para auxiliar no estudo da função do gene 092H06, a proteína recombinante 092H06-Histag foi produzida com sucesso, na forma solúvel, em E. coli. Os resultados alcançados neste trabalho contribuem para avançar o conhecimento sobre este novo gene expresso nos órgãos reprodutivos das plantas. / The efficiency of plant sexual reproduction depends on the correct development of the sexual organs: stamen and pistil. Complex molecular mechanisms control cell proliferation and expansion that result in the correct development of these organs. In our laboratory a gene preferentially expressed in Nicotiana tabacum pistil has identified, the 092H06 gene. This gene encodes a small protein of 68 amino acids of unknown function. Previous analyzes suggest that the protein product of the gene 092H06 is responsible for inhibiting the cell expansion process in the reproductive organs (Brito, 2010). To understand the role of this gene in pistil development, experiments of qRT-PCR to determinate the expression levels of the -expansins, -expansins, cyclin B1.2 and actin, genes which connected to the cell division and expansion processes, were carried out on transgenic plants silencing and overexpressing the 092H06 gene. Morphological analyzes on stigmas/styles and ovaries of second generation (T2) transgenic plants were performed by optical microscopy. The results show a tendency to increased cellular volume on the silencing transgenic plants, as well as on the overexpressing plants. However, in the silencing plants there was a visible increase of the reproductive structures, what has not been observed on the overexpressing plants. Additionally, flow cytometry experiments were carried out to verify the occurrence of endoreduplication. The results showed that no endoreduplication has occurred on the cells of the transgenic plants. The screening of a yeast two-hybrid assays, using 092H06 as bait, has found 4 interaction partners candidates: 1) biotin/lipolyl attachment domain-containing protein; 2) unknown protein; 3) trypsin proteinase inhibitor precursor and 4) RING/U-box. To assist the study of the 092H06 function, the recombinant 092H06-HIStag protein has been produced with success, in the soluble form, in E.col. The results obtained in this work contribute to advance the knowledge of this novel gene expressed on the plant reproductive organs. desenvolvimento do pistilo endorreduplicação expressão gênica nicotiana tabacum sinalização por peptídeo endoreduplication gene expression heterologous expression Nicotiana tabacum pistil development signaling peptide two hybrid assay
162	A análise do interactoma de SCI1 (Stigma/Style Cell Cycle Inhibitor 1) revela possíveis mecanismos de controle da proliferação celular / The analysis of the interactome of SCI1 (Stigma/Style Cell Cycle Inhibitor 1) reveals possible mechanisms controlling cell proliferation Edward José Strini 05 May 2014 (has links) A biologia da reprodução de plantas é um campo de grande interesse, já que a maioria dos alimentos consumidos pelo homem é composta de partes reprodutivas das plantas (frutos e sementes). O pistilo é o órgão reprodutivo feminino, composto de estigma, estilete e ovário. Devido à importância central do pistilo no sucesso da reprodução de plantas, faz-se necessário um melhor conhecimento dos genes e processos que regulam seu desenvolvimento e funcionamento. Estudos comparativos da expressão gênica nos órgãos vegetativos e reprodutivos de Nicotiana tabacum revelaram genes de expressão preferencial nos órgãos reprodutivos, entre eles alguns codificando proteínas de função ainda desconhecida. Um destes genes foi caracterizado e denominado SCI1 (Stigma/style Cell-cycle Inhibitor 1), por apresentar um papel importante no desenvolvimento do estigma/estilete, atuando como um inibidor de ciclo celular tecido-específico (DePaoli et al., 2011). O presente trabalho teve como objetivo estudar os mecanismos moleculares pelos quais NtSCI1 regula o ciclo celular, investigando seus parceiros de interação. Em um ensaio de pull-down, utilizando-se extrato proteico nuclear de estigmas/estiletes de N. tabacum, vários putativos reguladores de ciclo celular foram identificados, sendo a interação entre NtSCI1 e NtCDKG;2 confirmada por BiFC e localizada no nucléolo. Uma biblioteca de cDNAs de estigmas/estiletes de N. tabacum, no sistema de duplo-híbrido de levedura, foi construída com sucesso. O screening desta biblioteca, utilizando BD-NtSCI1 como \"isca\", permitiu a identificação de vários parceiros de interação com NtSCI1, entre eles: uma helicase de RNA DEAD-BOX, a proteína 14-3-3D2, dois fatores de transcrição (HOMEOBOX-22 e STOREKEEPER), um fator de splicing portador do domínio SWAP, uma quinase de adenosina e uma transposase. As interações entre NtSCI1 e os três primeiros parceiros citados já foram confirmadas por BiFC (observadas no núcleo e nucléolo) e a interação entre NtSCI1 e Nt14-3-3D2 foi confirmada também por co-imunoprecipitação. O envolvimento de NtSCI1 com a regulação do ciclo celular foi corroborado pela interação entre NtSCI1 e a proteína NtCICLINA-L1 (subunidade regulatória de CDKG;2), confirmada por duplo-híbrido e por BiFC, no nucléolo. A interação entre NtSCI1 e NtCICLINA-RELATED também foi confirmada por BiFC. Para entender a dinâmica de NtSCI1 no nucléolo, foi estudada a localização subcelular da proteína de fusão NtSCI1-GFP durante as fases do ciclo celular. NtSCI1-GFP foi observada no nucléolo de células BY-2 em interfase e prófase, desaparecendo na metáfase e anáfase e reaparecendo no nucléolo no final da telófase, mostrando que a presença de NtSCI1 na célula é controlada pelo ciclo celular. A construção de uma primeira versão do interactoma de NtSCI1 mostrou seu envolvimento direto e indireto com proteínas relacionadas ao metabolismo de RNAs, controle da transcrição e regulação do ciclo celular. Estes resultados sugerem que NtSCI1 possa atuar no controle do ciclo celular de forma não canônica, por meio de múltiplos processos paralelos que interconectam aspectos da regulação da transcrição e o processamento de RNAs com o controle do ciclo celular. / The biology of plant reproduction is a field of great interest, since most of the food consumed by humans is composed of reproductive parts of plants (fruits and seeds). The pistil is the female reproductive organ, composed of stigma, style and ovary. Due to the central importance of the pistil in the success of plant reproduction, a better knowledge of the genes and processes that regulate pistil development and function is necessary. Comparative studies of gene expression in vegetative and reproductive organs of Nicotiana tabacum have revealed genes preferentially expressed in the reproductive organs, among them some encoding proteins of unknown function. One of these genes was characterized and denominated SCI1 (Stigma/style Cell-cycle Inhibitor 1), since it has an important role in stigma/style development, acting as a tissue-specific cell-cycle inhibitor (DePaoli et al., 2011). The objective of the present work was to study the molecular mechanisms through which NtSCI1 regulates the cell cycle investigating its interaction partners. In a pull-down assay, using nuclear protein extracts from N. tabacum stigmas/styles, several putative cell cycle regulators were identified. Among them, the interaction between NtSCI1 and NtCDKG;2 was confirmed by BiFC and localized in the nucleolus. A N. tabacum stigma/style cDNA library in the yeast two-hybrid system was successfully constructed. The screening of this library, using BD-NtSCI1 as bait, allowed the identification of several NtSCI1 interaction partners, among them: a DEAD-BOX RNA helicase; the 14-3-3D2 protein; two transcription factors (HOMEOBOX-22 and STOREKEEPER); a splicing factor containing a SWAP domain; an adenosine kinase; and a transposase. The interactions between NtSCI1 and the first three mentioned partners have already been confirmed by BiFC (observed in the nucleus and nucleolus) and the interaction between NtSCI1 and Nt14-3-3D2 was also wconfirmed by co-immunoprecipitation. The NtSCI1 involvement in cell cycle regulation was corroborated by the interaction between NtSCI1 and the NtCYCLIN-L1 (a regulatory subunit of CDKG;2), which was confirmed by two-hybrid and BiFC in the nucleolus. The interaction between NtSCI1 and NtCYCLIN-RELATED was also confirmed by BiFC. To understand the dynamics of NtSCI1 in the nucleolus, the subcellular localization of the fusion protein NtSCI1-GFP was studied during the different cell cycle phases. NtSCI1-GFP was observed in the nucleolus of BY-2 cells at interphase and prophase, disappearing at metaphase and anaphase and reappearing in the nucleolus at the end of telophase, showing that NtSCI1 presence in the cell is controlled by the cell cycle. The construction of the first version of NtSCI1 interactome showed its direct and indirect involvement with proteins related to RNA metabolism, transcription control and cell cycle regulation. These results suggest that NtSCI1 may act in cell cycle control in a non-canonical way, through multiple parallel processes interconnecting aspects of transcription regulation, RNA processing and cell cycle control. Nicotiana tabacum BiFC Ciclo celular Duplo-Híbrido Interação proteína-proteína Nucléolo Pistilo Processamento de RNA SCI1 Nicotiana tabacum BiFC Cell cycle Nucleolus Pistil Protein-protein interaction RNA processing SCI1 Yeast two-hybrid
163	Calcium signaling in plant defense : involvement of subcellular compartments and glutamate receptors Manzoor, Hamid 11 May 2012 (has links) Les plantes présentent une forme d’immunité innée face à des agents potentiellement pathogènes qui se traduit par l’induction de réponses de défense. Les réponses immunes des plantes sont induites après détection de motifs moléculaires associés à des pathogènes ou à des micro-organismes par des récepteurs reconnaissant spécifiquement ces motifs et/ou des molécules dérivées des agents pathogènes ou de la plante, appelés éliciteurs de réaction de défense. La cryptogéine (Cry) et les oligogalacturonates (OGs) sont des éliciteurs établis de réactions de défense et leur reconnaissance induit une signalisation Ca2+-dépendante : un influx calcique et une variation de la concentration cytosolique en Ca2+ libre ([Ca]cyt) sont des événements précoces induisant une voie de signalisation de défense. Nous avons démontré que chez le tabac, les éliciteurs induisent une signalisation calcique dans les mitochondries et les chloroplastes. Des études pharmacologiques indiquent que des canaux IP3-dépendants régulent la signalisation calcique induite par la Cry dans les mitochondries et les chloroplastes. La respiration mitochondriale et les mécanismes de dissipation de l’énergie dans les chloroplastes sont régulés en partie par la [Ca2+] dans ces organites. De plus, nous montrons par des approches pharmacologiques et génétiques, que des homologues aux récepteurs du glutamate (GLRs) participent à la signalisation calcique induite par les OGs dans Arabidopsis. Les GLRs contrôlent en partie la production d’oxyde nitrique (NO) et d’espèces réactives de l’oxygène (ROS), ainsi que l’expression de gènes de défense. Par ailleurs, les plantes traitées par des antagonistes des GLRs, présentent une moindre résistance au pathogène fongique nécrotrophique, Botrytis cinerea et à l’oomycète biotrophique, Hyaloperonospora arabidopsidis. L’analyse de mutants Atglr révèle l’importante contribution de AtGLR3.3 dans la résistance envers H. arabidopsidis. De plus, de frappantes similarités dans l’expression de gènes sont observées après traitement par les OGs ou après infection par H. arabidopsidis. Enfin, une analyse transcriptomique montre qu’environ 60 % des gènes modulés par les OGs ont une expression qui dépend de GLRs. Ces gènes dépendants de GLRs appartiennent à diverses familles fonctionnelles dont celle répondant aux stress biotiques. En conclusion, ces études montrent 1) que les mitochondries et les chloroplastes présentent aussi une signalisation calcique induite par des éliciteurs de réaction de défense chez le tabac et 2) l’implication de GLRs dans la signalisation calcique induite par des éliciteurs ou des agents pathogènes et la résistance envers des agents pathogènes chez Arabidopsis / Plants do not display an adaptive immune system but express an efficient innate immune system defending them by inducing sophisticated multilevel defense responses against different potential pathogens. Indeed, plant immune responses are triggered upon the detection of many common pathogen- or microbe-associated molecular patterns (PAMPs/MAMPs) through specific pattern-recognition receptors (PRRs) and/or pathogen- or plant-derived signal molecules called elicitors. Cryptogein (Cry) and oligogalacturonides (OGs) are well known elicitors of defense reactions and their recognition induce a Ca2+-dependent signaling pathway: Ca2+ influx and subsequent free cytosolic [Ca2+] ([Ca2+]cyt) variations are earliest steps to trigger downstream plant defense signaling. Here we have demonstrated that elicitor-induced Ca2+ signaling in tobacco also takes place in mitochondria and chloroplasts. Pharmacological studies indicated that IP3-channels play an important role in the regulation of Ca2+ signaling in mitochondria and chloroplasts. Mitochondrial respiration and energy dissipation mechanisms in chloroplasts are partly controlled by [Ca2+] in these organelles. Moreover, using pharmacological and genetic approaches, our data demonstrated that glutamate receptors homologs (GLRs) participate in OGs-mediated Ca2+ signaling in Arabidopsis. GLRs partly control OGs-induced nitric oxide (NO) production, reactive oxygen species (ROS) production and expression of defense-related genes. Importantly, plants treated with GLRs antagonists exhibited compromised resistance to necrotrophic fungal pathogen, Botrytis cinerea and biotrophic oomycete, Hyaloperonospora arabidopsidis. Analysis of Atglr single mutants revealed the important contribution of AtGLR3.3 in resistance against H. arabidopsidis. Moreover, striking similarities in gene expression levels were observed after OGs elicitation/H. arabidopsidis infection. Finally, transcriptomic analysis demonstrated that about 60 % of the total OGs-modulated genes modified their expression in GLRs-dependent manner. These GLRs-dependent genes belong to different functional categories including the category “responses to biotic stresses”. Taken together, these data provide strong evidences of 1) elicitor-induced Ca2+ signaling in mitochondria and chloroplasts in tobacco and 2) the regulation of elicitor/pathogen mediated plant defense signaling pathways through GLRs in Arabidopsis thaliana Signalisation calcique Cryptogéine Oligogalacturonates Mitochondries Chloroplastes Récepteurs au glutamate Hyaloperonospora arabidopsidis Arabidopsis thaliana Nicotiana tabacum Calcium signaling Cryptogein Oligogalacturonides Mitochondria Chloroplasts Glutamate receptors Hyaloperonospora arabidopsidis Arabidopsis thaliana Nicotiana tabacum 571.6 572.8 579 580
164	Vliv působení uranu na metabolismus sacharidů kultivovaných rostlin. / The effect of uranium on carbohydrate metabolism of cultivated plants. Lábusová, Jana January 2013 (has links) Nowadays, the environmental pollution by heavy metals is very serious problem all around the world. Radionuclides, including uranium, are heavy metals that cause both chemical and radioactive pollution. Naturally occurring uranium is not so dangerous for living organisms. Human activities, especially uranium ore mining and use of phosphate fertilizers, have increased its concentration in the environment with consequent contamination of soil, water and air. Compared to other countries, the Czech Republic is relatively rich in deposits of uranium ore. Extensive mining results in large contaminated areas, containing not only uranium but also other heavy metals and xenobiotics that need to be removed from the environment. One way how to decontaminate soils and waters is phytoremediation. This eco-friendly and cost-effective technique exploits the ability of plants to take up, translocate, transform and sequester xenobiotics. In order to provide functional phytoremediation, it is necessary to understand the mechanisms of plant responses to stress caused by xenobiotics. Therefore in my master thesis, I focused on the impact of uranium on physiological processes of uranium-stressed plants, with the emphasis on carbohydrate metabolism and antioxidative defense mechanism. Powered by TCPDF (www.tcpdf.org)
165	Análise da resposta antioxidativa de células in vitro de fumo (Nicotiana tabacum cv BY-2) submetidas ao metal pesado níquel / Antioxidant response of BY-2 Nicotiana tabacum cells to nickel stress Pompeu, Georgia Bertoni 01 February 2006 (has links) Células de Nicotiana tabacum cv BY-2 foram tratadas por cinco dias com 0,075 e 0,750 mM de NiCl2. A relação entre a toxidade do níquel (Ni) e as reações oxidativas foram estudadas nas células durante a acumulação do metal. A atividade da superóxido dismutase não se alterou na presença do Ni. Entretanto, as atividades da catalase e da guaiacol peroxidase aumentaram às 36 e 72h depois do tratamento com o metal. As atividades da glutationa redutase, da glutationa-Stransferase e da ascorbato peroxidase aumentaram nas primeiras horas do tratamento. A peroxidação lipídica da membrana aumentou somente às 24h do tratamento com o metal. Os resultados sugerem que a desordem oxidativa é resultante dos efeitos da toxidade do Ni nas células de Nicotiana tabacum cv BY-2. / Células de Nicotiana tabacum cv BY-2 foram tratadas por cinco dias com 0,075 e 0,750 mM de NiCl2. A relação entre a toxidade do níquel (Ni) e as reações oxidativas foram estudadas nas células durante a acumulação do metal. A atividade da superóxido dismutase não se alterou na presença do Ni. Entretanto, as atividades da catalase e da guaiacol peroxidase aumentaram às 36 e 72h depois do tratamento com o metal. As atividades da glutationa redutase, da glutationa-Stransferase e da ascorbato peroxidase aumentaram nas primeiras horas do tratamento. A peroxidação lipídica da membrana aumentou somente às 24h do tratamento com o metal. Os resultados sugerem que a desordem oxidativa é resultante dos efeitos da toxidade do Ni nas células de Nicotiana tabacum cv BY-2. antioxidante antioxidative enzymes BY-2 Nicotiana tabacum enzima estresse fumo metais nickel níquel phytoremediation poluição do solo remediação ROS stress
166	BACTERIAL INOCULANTS, ENDOPHYTIC BACTERIA AND THEIR INFLUENCE ON <em>NICOTIANA</em> PHYSIOLOGY, DEVELOPMENT AND MICROBIOME Sanchez Barrios, Andrea Marisa 01 January 2018 (has links) Soil and root microbial communities have been studied for decades, and the incorporation of high-throughput techniques and analysis has allowed the identification of endophytic/non-culturable organisms. This has helped characterize and establish the core microbiome of many model plant species which include underground and aboveground organs. Unfortunately, the information obtained from some of these model plants is not always transferable to other agronomic species. In this project, we decided to study the microbiome of the Nicotiana genus because of its importance in plant physiological and plant-microbe interactions studies. The data obtained was used as baseline information that allowed us to better understand the effect of microbial inoculums on the assembly of the microbiome of the plant. We analyzed 16s rRNA amplicons to survey the microbiome in different plant organs and rhizosphere from four different species. Bacterial strains evaluated were screened for a consistent reduction or improvement in plant growth. Four bacterial strains were tested and used as seed inoculum (Lf-Lysinobacillus fusisormis, Ms –Micrococcus sp., Bs–Bacillus sp., Bc–Bacillus cereus). Bs and Bc inoculants caused plant growth promotion, and in contrast Ms caused retarded growth, while Lf acted as a neutral or non-inducing phenotype strain. Data supported that microbial inoculum used as seed treatment caused systemic changes in the host plant microbiome. Functionality of the inoculum was studied and the response in plant growth was linked to hormonal changes (evaluated in the plant and in the bacterial strains). Gene expression analysis using a genome-scale approach revealed that genes that could possibly be involved in stress response are down-regulated for Bc and Bs treatments and up-regulated for Ms. Flexibility variability of the inoculum was also evaluated to have a better understanding of the main factors involved in the promotion or suppression of growth, and possibly its effect in following generations. In summary, the findings of this project support that the plant functional microbiome responds to exogenous stimulation from abiotic and biotic factors by adapting endogenous hormone responses. Nicotiana benthamiana microbiome core inoculums morphological traits PAT-Seq high-throughput hormones Agriculture Computational Biology Genetics and Genomics Microbiology Plant Biology
167	Effects of yeast cell cycle gene expression in transgenic Nicotiana tabacum Webb, Penelope,1967- January 2001 (has links) Abstract not available Nicotiana -- Genetic engineering Tobacco -- Genetic engineering Plant genetic engineering Yeast Eukaryotic cells Cell cycle Cell division Transgenic plants Tetracycline
168	ÉTUDE STRUCTURALE ET DYNAMIQUE PAR RÉSONANCE MAGNÉTIQUE NUCLÉAIRE, D'UNE PROTÉINE DE TRANSFERT DE LIPIDES ISOLÉE DANS LE TABAC DA SILVA, Pedro 10 December 2004 (has links) (PDF) La LTP1 extraite de feuille de Nicotiana tabacum, nommée LTP1_1, a été produite dans Pichia pastoris. Nous avons ainsi déterminé sa structure tridimensionnelle par RMN 2D, 3D et modélisation moléculaire. Différentes études d'interaction et de dynamique ont ensuite mis en évidence des propriétés de fixation particulières comparativement aux autres LTPs. Ces travaux ont servi de base à la détermination de structures d'autres LTP1 de tabac par modélisation comparative et à des simulations de dynamique moléculaire à température ambiante et à haute température. De plus, nous avons cartographié la cavité hydrophobe de la LTP1_1 en utilisant la RMN du xénon hyperpolarisé.<br />L'ensemble de ces travaux a permis d'identifier les acides aminés impliqués spécifiquement dans la fixation des lipides. Nous avons découvert que les propriétés remarquables de fixation des LTP1 sont liées non seulement à leur structure originale mais également à leur dynamique particulière. RMN dynamique moléculaire LTP : protéines de transfert de lipides Nicotiana tabacum cavité hydrophobe
169	Identification of ARGONAUTES Involved in Antiviral RNA Silencing in Nicotiana benthamiana Odokonyero, Denis 1984- 14 March 2013 (has links) ARGONAUTE proteins (AGOs) are generally accepted as key components of the post transcriptional gene silencing mechanism, also involved in plant antiviral defense. Except for reports on the antiviral roles of AGO1, AGO2 and AGO7 in Arabidopsis, the exact roles played by the individual AGOs in other plant species are largely unknown. This research focused on the identification and characterization of AGOs involved in antiviral RNAi response to various viruses in N. benthamiana. Based on the temporal and spatial distribution of AGO transcripts in 3 and 8-week old plant root, stem and leaf tissues, expressions of NbAGO mRNAs were found to vary with age and tissue specificity. Plant endogenous AGO mRNAs were knocked down through virus induced gene silencing techniques using the Tobacco rattle virus vector system and posteriorly challenged with a GFP-chimeric virus construct deficient of a silencing suppressor. Unlike in control non-silenced plants, the Tomato bushy stunt virus construct deficient of its P19 silencing suppressor was consistently seen to exhibit a strong fluorescence on N. benthamiana plants silenced for NbAGOs 2 and X. Similar results were also obtained upon silencing of NbAGO2 using hairpin vector techniques. Comparable observations were also made when Tobacco mosaic virus GFP constructs were agroinfiltrated on NbAGO2 silenced plants further hinting the antiviral defense roles played by these AGOs. Agroinfiltration of Foxtailmosaic virus, Sunnhemp mosaic virus, and Turnip crinkle virus GFP chimeric constructs on NbAGO2 silenced N. benthamiana plants, however did not result in accumulation of GFP indicating the AGO antiviral defense specificity to TBSV and TMV. The results also hinted at a role for AGO7. Collectively my findings suggest that the expression of AGOs in N. benthamiana is tissue and age dependent, and that unlike in the model plant Arabidopsis where the main antiviral AGO is thought to be AtAGO1; in N. benthamiana, NbAGOs 2 and X seem to be involved in an antiviral defense role against TBSV and TMV with other AGOs perhaps contributing. hairpin vectors virus induced gene silencing antiviral RNA silencing post transcriptional gene silencing ARGONAUTE Nicotiana benthamiana RNAi
170	Identification et étude du rôle des protéines cibles du monoxyde d'azote (NO) dans les réponses de défense chez le tabac Astier, Jérémy 30 May 2011 (has links) (PDF) Les études entreprises depuis une douzaine d'années indiquent que le monoxyde d'azote (NO) est un médiateur physiologique impliqué dans de nombreux processus chez les plantes, incluant la germination, le développement des racines, la fermeture des stomates ou encore la réponse adaptative aux stress biotiques et abiotiques. Malgré cet important panel de fonctions, les mécanismes sous-jacents aux effets du NO ont été peu appréhendés et restent pour l'essentiel énigmatiques. Le travail présenté dans ce manuscrit s'inscrit dans cette problématique et a consisté en l'identification et la caractérisation de protéines cibles du NO chez le tabac dans le contexte de stress biotiques et abiotiques. Nous avons démontré que la cryptogéine, un éliciteur des réactions de défense, induit la S-nitrosylation rapide et transitoire de plusieurs protéines dans des suspensions cellulaires de tabac. Après purification, une douzaine de ces protéines ont été identifiées via une analyse par spectrométrie de masse. Celles-ci incluent notamment une protéine chaperonne de la famille des AAA-ATPase nommée CDC48 (Cell Division Cycle 48). Cette dernière a fait l'objet d'une étude structure/fonction approfondie afin d'appréhender l'impact de sa S-nitrosylation. Après avoir vérifié que la protéine recombinante était S-nitrosylable in vitro, nous avons démontré que ce processus n'affecte pas la structure secondaire de la protéine mais induit des modifications locales de sa structure tertiaire et une inhibition de son activité ATPasique. Le résidu cystéine 526, localisé dans le second domaine ATPasique de la protéine, a été identifié comme site probable de S-nitrosylation. Cette localisation stratégique pourrait expliquer l'effet inhibiteur du NO sur l'activité enzymatique de CDC48. La dernière partie de ce travail a été centrée sur l'analyse des mécanismes par lesquels le NO active la protéine kinase NtOSAK (Nicotiana tabacum stress activated protein kinase) chez le tabac. Nous avons démontré que NtOSAK forme un complexe constitutif avec la glycéraldéhyde 3 phosphate deshydrogénase (GAPDH). En réponse à un stress salin, le NO promeut l'activation de NtOSAK via la phosphorylation de deux résidus serine localisés dans la boucle d'activation de l'enzyme. De plus, il induit une S-nitrosylation rapide de la GAPDH, ce processus n'affectant pas la formation du complexe. Notre hypothèse est que ce complexe constituerait une plateforme de signalisation régulée par le NO et pouvant recruter les protéines cibles de NtOSAK lors de la réponse au stress salin. Nicotiana tabacum Monoxyde d'azote Cryptogéine CDC48 NtOSAK Défenses des plantes

Search results