Étude du réseau d'interactions entre les protéines du Virus de l'Hépatite C

Racine, Marie-Eve

January 2007

Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal.

VHC

HCV

Interactions protéine-protéine

Protein-protein interactions

NS3/4A

NS3/4A

NS4B

NS4B

NS5A

NS5A

BRET

BRET

Microscopie de fluorescence

Fluorescence microscopy

Localisation subcellulaire

Subcellular localization

Co-immunoprécipitation

Co-immunoprecipitation

Mutagénèse

Mutagenesis

Functional analysis of candidate effector proteins during Sporisorium scitamineum x sugarcane interaction / Análise funcional de proteínas candidatas a efetores durante a interação Sporisorium scitamineum x cana

Silva, Natália de Sousa Teixeira e

04 February 2019

Sugarcane smut is a worldwide distributed disease important to agribusiness, since it can affect sugarcane yield drastically. The disease is caused by the Basidiomycete Sporisorium scitamineum, a biotrophic fungus that colonizes mainly sugarcane. Sugarcane-smut interaction has been extensively studied by this research group for the past few years in their various aspects, considering both the pathogen attack and plant defenses. This work aimed to functionally address fungal candidate effector proteins associated with this pathosystem. Effectors are essential to modulate host metabolism to allow pathogen colonization. The identification of such proteins may assist in recognition of resistance genes relevant to genetic breeding programs. Based on the complete genome sequence of S. scitamineum and the dual transcriptomic data candidate genes were selected in silico. Selection strategies were based on the predicted secretome and differential expression levels of the genes in planta. Candidate effectors were analyzed regarding their expression pattern, subcellular location and influence over basal plant defenses and plant immunity. The results showed that the S. scitamineum candidate effector genes are expressed under the influence of the host genotype. It was observed various expression patterns in the set of selected genes and differential subcellular localization patterns. These results will enable future researches considering virulence level of different isolates and also help decision making in plant breeding programs. / O carvão da cana-de-açúcar é uma doença cosmopolita de grande importância para o agronegócio, uma vez que pode afetar a produtividade da cultura. A doença é causada pelo basidiomiceto Sporisorium scitamineum, fungo biotrófico que coloniza exclusivamente a cana-de-açúcar. A interação cana-carvão vem sendo extensivamente estudada por este grupo de pesquisa nos últimos anos em seus vários aspectos, considerando as atividades de ataque e defesa do patógeno e da planta, respectivamente. Este trabalho teve como finalidade o estudo funcional de proteínas candidatas a efetores neste patossistema. Efetores são moléculas essenciais na manipulação do metabolismo e fisiologia do hospedeiro de forma a permitir sua colonização. A identificação de tais proteínas auxilia no reconhecimento de genes de resistência podendo gerar informações relevantes a programas de melhoramento genético na produção de variedades resistentes. A estratégia de seleção utilizada se baseia em características do secretoma predito e da expressão diferencial de genes do patógeno in planta. Os candidatos foram analisados quanto ao padrão de expressão gênica, à localização sub celular e sua influência sobre a defesa basal e imunidade em plantas. Os resultados demonstraram que a expressão dos genes que codificam para as proteínas efetoras de S. scitamineum e é influenciada pelo genótipo das plantas infectadas. Foram observadas variações no padrão de expressão entre o conjunto de efetores selecionados, bem como padrões diferenciais de localização sub celular e influência sobre a imunidade em plantas. Os resultados gerados por este trabalho servirão de subsídio para estudos futuros sobre os níveis de virulência dos diferentes isolados do patógeno bem como para auxiliar a tomada de decisão em programas de melhoramento genético de variedades resistentes ao carvão da cana.

Biologia de efetores

Carvão da cana-de-açúcar

Effector biology

Expression profile

Functional genomics

Genômica funcional

Interação planta-patógeno

Localização sub celular

Perfil de expressão gênica

Plant-pathogen interaction

Subcellular location

Sugarcane smut

Biogênese, estabilidade e localização sub-celular de RNAs não-codificadores longos expressos em regiões intrônicas do genoma humano / Biogenesis, stability and sub-cellular localization of long non-coding RNAs expressed in intronic regions of the human genome

Oliveira, Ana Carolina Ayupe de

26 March 2012

Trabalhos recentes indicam que a maior parte do transcriptoma de células de mamíferos é composto por RNAs não-codificadores de proteínas (ncRNAs). Nosso grupo tem identificado e caracterizado ncRNAs longos (>200 nt), sem splicing, expressos em regiões intrônicas de genes codificadores de proteína. Contudo, a biogênese, processamento e localização sub-celular desta classe de RNAs permanecem desconhecidos. Este trabalho teve como objetivos i) investigar a contribuição da RNA Polimerase II (RNAP II) na transcrição de ncRNAs intrônicos, ii) avaliar a meia-vida destes ncRNAs em relação a mRNAs, e iii) verificar a distribuição sub-celular de ncRNAs intrônicos. Os resultados obtidos indicaram que ncRNAs intrônicos são predominantemente transcritos pela RNAP II a partir de regiões promotoras funcionalmente semelhantes as que controlam a transcrição de mRNAs. Ensaios de estabilidade revelaram que, em média, ncRNAs intrônicos possuem meia-vida igual ou maior (3,4h a 4,2h) do que mRNAs (3,1h). A maior parte dos ncRNAs intrônicos possui estrutura cap 5\', sugerindo que sejam estabilizados para desempenhar papéis na biologia da célula que não dependam de um rápido turnover. A maior parte dos ncRNAs intrônicos é exportada para o citoplasma, indicando que devam exercer alguma função biológica neste compartimento. Em conjunto, este trabalho fornece informações novas a respeito da biogênese, estabilidade e localização sub-celular ncRNAs intrônicos expressos em células humanas, contribuindo para avançar o conhecimento sobre esta classe de transcritos celulares. / Recent studies have shown that most of the mammalian transcriptome is comprised of non-coding RNAs (lncRNAs). Our group has identified and characterized long (>200 nt), unspliced lncRNAs expressed in intronic regions of protein coding genes. However, the biogenesis, processing, stability and subcellular localization of members from this RNA class remain unknown. The aims of this work were i) to investigate the contribution of RNA Polymerase II (RNAP II) to the transcription of intronic, ii) to evaluate the half-life of these ncRNAs relative to mRNAs, and iii) determine their subcellular distribution. Our results indicate that intronic ncRNAs are predominantly transcribed by RNAP II from promoter regions functionally similar to those that control the transcription of mRNAs. Stability assays revealed that intronic ncRNAs have an average half-life equal or greater (3.4h to 4.2h) than mRNAs (3.1h). The majority of intronic ncRNAs have 5\' cap modification suggesting that these transcripts are stabilized, possibly to exert roles in the biology of the cell that does not depend on a rapid turnover. Although intronic ncRNAs do not encode proteins, most of these transcripts are transported to the cytoplasm which indicates that they may perform some biological function in this compartment. Altogether, this study reveals with novel information regarding the biogenesis, stability and subcellular localization of intronic ncRNAs expressed in human cells, thus contributing to advance the knowledge on this class of cellular transcripts.

DNA oligoarrays

Estabilidade de RNAs

Eukaryotic transcription

Expressão gênica

Gene expression

Intronic non-coding RNAs

Localização sub-celular de RNAs

Oligoarranjos de DNA

RNA stability

RNA subcellular localization

RNAs não-codificadores intrônicos

Transcrição eucariótica

Transcriptoma

Transcriptome

Componentes genéticos que afetam a via de direcionamento de proteínas organelares em Arabidopsis thaliana / Genetic components affecting organelar protein targeting in Arabidopsis thaliana

Spoladore, Larissa

18 April 2016

Nos eucariotos, a evolução dos sistemas de transporte molecular foi essencial pois seu alto grau de compartimentalização requer mecanismos com maior especificidade para a localização de proteínas. Com o estabelecimento das mitocôndrias e plastídeos como organelas da célula eucariota, grande parte dos genes específicos para sua atividade e manutenção foram transferidos ao núcleo. Após a transferência gênica, a maioria das proteínas passaram a ser codificadas pelo núcleo, sintetizadas no citosol e direcionadas às organelas por uma maquinaria complexa que envolve receptores nas membranas das organelas, sequências de direcionamento nas proteínas e proteínas citossólicas que auxiliam o transporte. A importação depende em grande parte de uma sequência na região N-terminal das proteínas que contém sinais reconhecidos pelas membranas organelares. No entanto, muito ainda não é compreendido sobre o transporte de proteínas organelares e fatores ainda desconhecidos podem influenciar o direcionamento sub-celular. O objetivo deste trabalho foi a caracterização da General Regulatory Factor 9 (GRF9), uma proteína da família 14-3-3 de Arabidopsis thaliana potencialmente envolvida no direcionamento de proteínas organelares, e a geração de um genótipo para ser utilizado na obtenção de uma população mutante para genes que afetam o direcionamento da proteína Tiamina Monofosfato Sintetase (TH-1). Após experimentos in vivo e in planta, foi observado que GRF9 interage com as proteínas duplo-direcionadas Mercaptopyruvate Sulfurtransferase1 (MST1) e a Thiazole Biosynthetic Enzyme (THI1), e com a proteína direcionada aos cloroplastos TH-1. Experimentos de deleção e interação in vivo mostraram que a região Box1 de GRF9 é essencial para a interação com THI1 e MST1. Com a finalidade de dar continuidade a caracterização da GRF9 e para realização de testes com relação a sua função no direcionamento de proteínas organelares foi gerada uma linhagem homozigota que superexpressa GRF9. Plantas expressando o transgene TH-1 fusionado a Green Fluorescent Protein (GFP) em genótipo deficiente na TH-1 (CS3469/TH-1-GFP) foram obtidas para a geração de população mutante que possibilitará a descoberta de componentes genéticos ainda desconhecidos e responsáveis pelo direcionamento de proteínas aos cloroplastos. / In Eukaryotes, the evolution of molecular transport in the cell was essential due to their increase in compartmentalization, which requires more specific mechanisms for the correct localization of proteins. With the establishment of mitochondria and plastids as organelles, a great number of their genes, either specific for their metabolic functions or maintenance of their own transcription/translation processes, were transferred to the nucleus of the cell. These transfers caused most of the organellar proteins to be coded by the nucleus, then synthesized in the cytosol and targeted to the organelles by a complex machinery which involves membrane receptors in the organelles, targeting sequences in the proteins, and cytosolic proteins which assist them with the transport. Protein import depends greatly on an N-terminal sequence in proteins which has recognizable signals for the organellar membrane receptors. However, much is still not understood about the transport of organellar proteins, and unknown factors may still influence subcellular targeting. The goal of this work was the characterization of General Regulatory Factor 9 (GRF9), a protein of the 14-3-3 family in Arabidopsis thaliana potentially involved in the targeting of organellar proteins, and generating a genotype to be used in obtaining a mutant population for genes affecting the targeting of the protein Thiamine Requiring 1 (TH-1). After in vivo and in planta experiments it was observed that GRF9 interacts with the dual-targeted proteins Mercaptopyruvate Sulfurtransferase1 (MST1) and Thiazole Biosynthetic Enzyme (THI1), and with the chloroplast targeted protein TH-1. Deletion experiments followed by in vivo interaction assays showed that Box 1 region of GRF9 is essential for the interaction with THI1 and MST1. For the continuing characterization of GRF9 and for following tests of its function in the targeting of organellar proteins, a homozygous line was generated overexpressing GRF9. Plants expressing the transgene TH-1 fused to the Green Fluorescent Protein (GFP) in a TH-1 deficient genotype (CS3469/TH-1-GFP) were obtained for the generation of a mutant population which will allow the discovery of genetic components still unknown responsible for targeting proteins to the chloroplasts.

14-3-3 Proteins

Arabidopsis

Arabidopsis

Chaperonas

Chaperones

Dual-targeting

Duplo Direcionamento

Interações proteína-proteína

Localização Sub-celular

Protein-protein interactions

Proteínas 14-3-3

Sequências de Direcionamento

Subcellular localization

Targeting sequences

Toxicité, transfert et gestion subcellulaire de l’yttrium (Y) chez trois organismes d’eau douce

Cardon, Pierre-Yves

11 1900

No description available.

Terres rares

fractionnement subcellulaire

écotoxicologie

eau douce

transfert trophique

Rare earth

Yttrium

Ecotoxicology

Bioassays

Trophic transfer

Subcellular fractionation

Daphnia magna

Chironomus riparius

Oncorhynchus mykiss

ENGINEERING GENETICALLY ENCODED FLUORESCENT BIOSENSORS TO STUDY THE ROLE OF MITOCHONDRIAL DYSFUNCTION AND INFLAMMATION IN PARKINSON’S DISEASE

Stevie Norcross (6395171)

10 June 2019

<p>Parkinson’s disease is a neurodegenerative disorder characterized by a loss of dopaminergic neurons, where mitochondrial dysfunction and neuroinflammation are implicated in this process. However, the exact mechanisms of mitochondrial dysfunction, oxidative stress and neuroinflammation leading to the onset and development of Parkinson’s disease are not well understood. There is a lack of tools necessary to dissect these mechanisms, therefore we engineered genetically encoded fluorescent biosensors to monitor redox status and an inflammatory signal peptide with high spatiotemporal resolution. To measure intracellular redox dynamics, we developed red-shifted redox sensors and demonstrated their application in dual compartment imaging to study cross compartmental redox dynamics in live cells. To monitor extracellular inflammatory events, we developed a family of spectrally diverse genetically encoded fluorescent biosensors for the inflammatory mediator peptide, bradykinin. At the organismal level, we characterized the locomotor effects of mitochondrial toxicant-induced dopaminergic disruption in a zebrafish animal model and evaluated a behavioral assay as a method to screen for dopaminergic dysfunction. Pairing our intracellular redox sensors and our extracellular bradykinin sensors in a Parkinson’s disease animal model, such as a zebrafish toxicant-induced model will prove useful for dissecting the role of mitochondrial dysfunction and inflammation in Parkinson’s disease. </p>

Biochemistry

Proteins and Peptides

Structural Chemistry and Spectroscopy

Mitochondria

Inflammation

roGFP

Redox

Subcellular

Zebrafish

MPTP

Oligopeptide-binding protein A

Anisotropy

Competitive binding model

Bradykinin

Peptide

PepI

PepR

Intensiometric measurement

Ratiometric measurement

Imagerie cellulaire du stress métallique induit par le cadmium chez la micro-algue verte Chlamydomonas reinhardtii par techniques synchrotron µXRF / XAS et nanoSIMS / Cell imaging of the metallic stress induced by cadmium in the green micro-alga Chlamydomonas reinhardtii by synchrotron-based techniques (µXRF/XAS) and nanoSIMS

Penen, Florent

17 December 2015

La micro-algue verte Chlamydomonas reinhardtii est considérée comme un modèle dans l’étude du stress métallique chez les organismes photosynthétiques. Les mécanismes de tolérance au stress induit par le cadmium ne sont pas encore clairement établis. Afin de déterminer ces mécanismes, la localisation subcellulaire et la spéciation chimique in situ du cadmium ont été déterminées chez trois souches de C. reinhardtii exposées au cadmium en condition mixotrophe (CO2 + Acétate) : (i) une souche de type sauvage (wt), (ii) la souche cell-wall less (cw15) qui est déficiente en paroi cellulaire, (iii) la souche pcs1 qui surexprime la phytochélatine synthase (PCS), enzyme ordinairement cytosolique, directement dans son chloroplaste. Pour ce faire, la toxicité du cadmium a été déterminée en mesurant la croissance ainsi que la teneur en chlorophylle et en amidon des micro-algues. Puis, la localisation du cadmium au niveau subcellulaire a été réalisée par trois techniques complémentaires (fractionnement subcellulaire, µXRF, TEM/X-EDS). La spéciation chimique in situ du cadmium a été effectuée par µXAS et XAS. Enfin, l’imagerie élémentaire et isotopique par nanoSIMS a permis de compléter les distributions élémentaires dans la cellule et de déterminer l’impact du cadmium sur les mécanismes d’assimilation du carbone. (i) Les résultats de ce travail montrent que la souche wt est la plus sensible au cadmium des trois avec une diminution de la croissance et de la teneur en chlorophylle. Lorsqu’elle ne présente pas ces signes de toxicité, le cadmium est séquestré dans l’ensemble de la cellule par des ligands thiolés et de façon mineure par les granules de polyphosphates. Suite à l’exposition à de fortes concentrations en cadmium, le cadmium intracellulaire est lié majoritairement à des ligands carboxylés probablement induits par le stress oxydatif. De plus, la présence du cadmium dans le pyrénoïde bloque l’assimilation du carbone inorganique (CO2), au profit de l’assimilation du carbone organique (acétate), qui est stocké sous forme d’amidon. (ii) La surexpression de la PCS de la souche pcs1 provoque une production d’amidon importante autour du pyrénoïde et protège la chlorophylle du stress lié au cadmium. Bien que la synthèse de phytochélatines soit potentiellement élevée, la moitié du cadmium intracellulaire est séquestrée par les granules de polyphosphates et l’amidon. (iii) La souche cw15 est la plus tolérante des trois souches et n’accumule pas la totalité du cadmium disponible, contrairement aux cellules possédant une paroi cellulaire. Similairement au wt, le cadmium intracellulaire est séquestré majoritairement par des ligands thiolés et de façon mineure par les granules de polyphosphates. L’observation de granules de polyphosphates excrétées par les micro-algues permet l’hypothèse de l’excrétion du cadmium vacuolaire induisant un flux constant de cadmium à travers la cellule. En conclusion, la séquestration du cadmium via des ligands soufre, potentiellement par des polypeptides thiolés, est le mécanisme de tolérance majoritaire mis en place par C. reinhardtii. Néanmoins, la séquestration du cadmium par les granules de polyphosphates semble apporter une plus grande tolérance vis-à-vis du stress lié au cadmium. / The green micro-alga Chlamydomonas reinhardtii is commonly used as a model for the study of the metallic stress in photosynthetic organisms. Tolerance mechanisms against stress induced by cadmium are not well understood. In order to determine these mechanisms, subcellular location and in situ speciation have been determined in three C. reinhardtii strains exposed to cadmium in mixotrophic conditions (CO2 + Acetate) : (i) a wild type strain (wt), (ii) a cell-wall less strain (cw15) which is deficient in cell-wall, (iii) the pcs1 strain which overexpresses the cytosolic enzyme phytochetlatin synthase (PCS) directly in the chloroplast. Cadmium toxicity has been determined by the monitoring of growth and chlorophyll, starch content in micro-algae. Then, cadmium location at subcellular level has been performed using three complementary techniques (subcellular fractionation, µXRF and TEM/X-EDS). In situ cadmium speciation has been studied by µXAS and XAS. Finally, elemental and isotopic imaging by nanoSIMS has allowed to complete elemental distribution in the cells and to determine the impact of cadmium on the assimilation of carbon. (i) The results of this work show that the wt strain is the most sensitive strain to cadmium stress among the three studied strains with a growth and chlorophyll content decrease. When wt cells do not show signs of toxicity, cadmium is mainly sequestered in the whole cell by thiolated ligands and in polyphosphate granules. After an exposure to high concentration of cadmium, intracellular cadmium is mainly bound to carboxylated ligands, probably induced by oxidative stress. Moreover, cadmium located in the pyrenoid blocks inorganic carbon (CO2) assimilation and increases organic carbon (acetate) assimilation which is stored as starch. (ii) The overexpresssion of PCS in the pcs1 strain induces a strong production of starch around the pyrenoid and proctects the chlorophyll against cadmium stress. Although the synthesis of phytocheltins was potentially strong, half of the intracellular cadmium is sequestered in polyphosphate granules and in starch. (iii) Unlike cell-walled cells, the cw15 strain is the most tolerant strain and does not accumulate the totality of available cadmium. Similarly to wt strain, intracellular cadmium is mainly sequestered by thiolated ligands and in polyphosphate granules. The observation of polyphosphate granules excreted by the micro-algae allows the hypothesis of the excretion of vacuolar cadmium, inducing a constant flux of cadmium through the cells. In conclusion, cadmium sequestration by sulfur ligands, potentially by thiolated polypeptides, is the main tolerance mechanism implemented by C. renhardtii. However, cadmium sequestration in polyphosphate granules seems to allow a better tolerance against cadmium stress.

Imagerie Cellulaire

Chlamydomonas reinhardtii

Cadmium

Localisation subcellulaire

Spéciation chimique

Toxicité

XAS

ΜXRF

NanoSIMS

TEM/X-EDS

Cell imaging

Chlamydomonas reinhardtii

Cadmium

Subcellular location

Chemical speciation

Toxicity

XAS

ΜXRF

NanoSIMS

TEM/X-EDS

Biogênese, estabilidade e localização sub-celular de RNAs não-codificadores longos expressos em regiões intrônicas do genoma humano / Biogenesis, stability and sub-cellular localization of long non-coding RNAs expressed in intronic regions of the human genome

Ana Carolina Ayupe de Oliveira

26 March 2012

Trabalhos recentes indicam que a maior parte do transcriptoma de células de mamíferos é composto por RNAs não-codificadores de proteínas (ncRNAs). Nosso grupo tem identificado e caracterizado ncRNAs longos (>200 nt), sem splicing, expressos em regiões intrônicas de genes codificadores de proteína. Contudo, a biogênese, processamento e localização sub-celular desta classe de RNAs permanecem desconhecidos. Este trabalho teve como objetivos i) investigar a contribuição da RNA Polimerase II (RNAP II) na transcrição de ncRNAs intrônicos, ii) avaliar a meia-vida destes ncRNAs em relação a mRNAs, e iii) verificar a distribuição sub-celular de ncRNAs intrônicos. Os resultados obtidos indicaram que ncRNAs intrônicos são predominantemente transcritos pela RNAP II a partir de regiões promotoras funcionalmente semelhantes as que controlam a transcrição de mRNAs. Ensaios de estabilidade revelaram que, em média, ncRNAs intrônicos possuem meia-vida igual ou maior (3,4h a 4,2h) do que mRNAs (3,1h). A maior parte dos ncRNAs intrônicos possui estrutura cap 5\', sugerindo que sejam estabilizados para desempenhar papéis na biologia da célula que não dependam de um rápido turnover. A maior parte dos ncRNAs intrônicos é exportada para o citoplasma, indicando que devam exercer alguma função biológica neste compartimento. Em conjunto, este trabalho fornece informações novas a respeito da biogênese, estabilidade e localização sub-celular ncRNAs intrônicos expressos em células humanas, contribuindo para avançar o conhecimento sobre esta classe de transcritos celulares. / Recent studies have shown that most of the mammalian transcriptome is comprised of non-coding RNAs (lncRNAs). Our group has identified and characterized long (>200 nt), unspliced lncRNAs expressed in intronic regions of protein coding genes. However, the biogenesis, processing, stability and subcellular localization of members from this RNA class remain unknown. The aims of this work were i) to investigate the contribution of RNA Polymerase II (RNAP II) to the transcription of intronic, ii) to evaluate the half-life of these ncRNAs relative to mRNAs, and iii) determine their subcellular distribution. Our results indicate that intronic ncRNAs are predominantly transcribed by RNAP II from promoter regions functionally similar to those that control the transcription of mRNAs. Stability assays revealed that intronic ncRNAs have an average half-life equal or greater (3.4h to 4.2h) than mRNAs (3.1h). The majority of intronic ncRNAs have 5\' cap modification suggesting that these transcripts are stabilized, possibly to exert roles in the biology of the cell that does not depend on a rapid turnover. Although intronic ncRNAs do not encode proteins, most of these transcripts are transported to the cytoplasm which indicates that they may perform some biological function in this compartment. Altogether, this study reveals with novel information regarding the biogenesis, stability and subcellular localization of intronic ncRNAs expressed in human cells, thus contributing to advance the knowledge on this class of cellular transcripts.

Estabilidade de RNAs

Expressão gênica

Localização sub-celular de RNAs

Oligoarranjos de DNA

RNAs não-codificadores intrônicos

Transcrição eucariótica

Transcriptoma

DNA oligoarrays

Eukaryotic transcription

Gene expression

Intronic non-coding RNAs

RNA stability

RNA subcellular localization

Transcriptome

Multi-Level Regulation Of Argininosuccinate Synthase: Significance For Endothelial Nitric Oxide Production

Corbin, Karen Davidowitz

17 November 2008

The citrulline-nitric oxide (NO) cycle, comprised of the enzymes argininosuccinate synthase (AS), argininosuccinate lyase (AL) and endothelial nitric oxide synthase (eNOS), is responsible for the regulated production of endothelial NO. Although most studies have focused on eNOS to uncover important regulatory mechanisms, we and others have determined that AS is an essential and regulated step in endothelial NO production. AS is rate limiting for endothelial NO production and is the primary source of arginine, the substrate for eNOS-mediated NO production, despite saturating intracellular levels of arginine and available arginine transport systems. AS is essential for endothelial cell viability and its expression is regulated coordinately with eNOS by TNF and thiazolidenediones with concomitant effects on NO production. Given the importance of AS for endothelial health, we explored three independent regulatory mechanisms. In Chapter One, the functional consequences of altered AS expression due to overexpression, insulin, VEGF and ceramide were studied. We demonstrated that overexpression of AS leads to enhanced NO production and that insulin, VEGF and ceramide coordinately regulate the expression of AS and eNOS. In Chapter Two, the first post-translational modifications of AS in the endothelium were characterized. We determined that AS is an endogenous phosphoprotein in the endothelium, described several levels of biological significance of AS phosphorylation, identified 7 sites of AS phosphorylation and began to uncover the direct impact of phosphorylation on AS function. Finally, in Chapter Three, endothelial AS subcellular localization was defined and important protein interactions were identified including caveolin-1 and HSP90. The work presented in this dissertation demonstrates that multiple mechanisms regulate the function of AS, often coordinately with eNOS, and have a direct impact on nitric oxide production. Our findings suggest that the global understanding of the citrulline-NO cycle as a metabolic unit will unravel new paradigms that will re-define our understanding of the regulation of vascular function by NO.

insulin

vascular endothelial growth factor

bradykinin

ceramide

kinase

phosphorylation

post-translational modifications

heat shock protein 90

caveolin

endothelial nitric oxide synthase

subcellular localization

protein interactions

American Studies

Arts and Humanities

Subcellular Localization of Nicotiana tabacum TGA Transcription Factors / Subzelluläre Lokalisation von TGA Transkriptionfaktoren aus Nicotiana tabacum

Nickolov, Kaloian Iliev

30 January 2003

Die Salicylsäure (SA) ist ein wichtiges Signalmolekül bei der Regulation der pflanzlichen Pathogenabwehr. as-1-ähnliche cis-Elemente in den Promotoren von vielen Abwehrgenen vermitteln SA- und auch Auxin-induzierbare Genexpression. Diese Elemente werden vom ASF-1/SARP-Proteinkomplex erkannt, dessen Hauptkomponenten DNA-Bindeproteine aus der TGA-Familie der pflanzlichen bZIP-Transkriptionsfaktoren sind. In dieser Arbeit wurden Fusionsproteine von TGA2.1, TGA2.2 und TGA1a mit GFP unter der Kontrolle des HBT-Promotors transient in Pflanzenprotoplasten oder stabil in transgenen Pflanzen exprimiert und direkt in lebenden Zellen über Fluoreszenz- und konfokale Laser-Scanning-Mikroskopie visualisiert. Bei den mikroskopischen Analysen konnte die Fluoreszenz der drei TGA-GFP-Fusionsproteine überwiegend im Kern (mit Ausnahme des Nukleolus) beobachtet werden. Allerdings ließen sich biochemisch mit Hilfe eines Antiserums gegen die beiden C Termini der TGA-Faktoren auch geringe Mengen von TGA2.1-GFP und TGA2.2-GFP in cytosolischen Extrakten der entsprechenden transgenen Pflanzen nachweisen. Fusionen der C terminalen Anteile von TGA2.2 und TGA1a an den C Terminus von CHS-GFP wurden bei transienter Expression ebenfalls im Cytosol beobachtet. Es konnte nicht abschließend geklärt werden, ob dass auf das Fehlen der NLS oder auf die Anwesenheit einer NES zurück zu führen ist. Die TGA-GFP-Fusionsproteine konnten das as 1-Element in vitro in Gelretardationsanalysen erkennen und in Form von Homo-oder Heterodimeren daran binden. Die TGA-GFP-Fusionsproteine waren auch in der Lage, die Expression des frühen (immediate-early) GST-Gens Nt103 in Blättern nach Induktion mit Salicylsäure oder Auxin zu beeinflussen. TGA2.1-GFP und TGA2.2-GFP zeigten im allgemeinen einen positiven Effekt auf die Nt103-mRNA-Menge (2-4-facher Anstieg verglichen mit dem Wildtyp), wobei sich der Effekt stärker auf die SA-induzierte Expression auswirkte als auf die 2,4-D-Proben. TGA1a-GFP schien die Expression von Nt103 in Blättern in beiden Fällen leicht negativ oder gar nicht zu beeinflussen. Die Mobilitätsparameter der verschiedenen TGA-GFP-Fusionsproteine im Kern wurden mit Hilfe von FCS, kombiniert mit CLMS, untersucht. Während die Mobilität des Kontrollproteins TetR-GFP, dass keine endogenen Interaktionpartner hat, einheitlich war, schienen Subfraktionen der TGA-GFP Fusionproteine in ihrer Mobilität beeinflusst. Generell konnte zwischen einer mobileren und einer weniger mobilen Fraktion unterschieden werden. Bei manchen Messungen waren die TGA-Faktoren im Kern sogar gänzlich immobil. Die relative Anteil von weniger mobilen, bzw. immobilen und mobilen TGA-faktoren unterschied sich in den unterschiedlichen analysierten Zelltypen (längliche und echte Epidermiszellen, Schießzellen, Trichomzellen). Um einen eindeutigen Effekt von Salizylsäure auf die Mobilität der TGA-Faktoren festzumachen, sind wegen der großen Variabilität weitere Messungen nötig.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

TGA Faktoren

subzelluläre Lokalisation

GFP-fusionen

CLSM

FCS

Mobilität

TGA factors

subcellular localisation

GFP fusions

CLSM

FCS

mobility

42.41