Global ETD Search

91	Interaction of hepatic uptake transporters with antineoplastic compounds and regulation of the expression of organic cation transporter 3 in renal carcinoma cells Marada, Venkata 15 January 2015 (has links) No description available. 610 Next gen sequencing microRNA analysis Uptake transporter proteins antineoplastic compounds drug-transporter interactions Medizin (PPN619874732)
92	A proteome-wide strategy reveals a novel mechanism of control of cell cycle progression through modulation of cyclin mRNA stability Messier, Vincent 01 1900 (has links) La quantité de données générée dans le cadre d'étude à grande échelle du réseau d'interaction protéine-protéine dépasse notre capacité à les analyser et à comprendre leur sens; d'une part, par leur complexité et leur volume, et d'un autre part, par la qualité du jeu de donnée produit qui semble bondé de faux positifs et de faux négatifs. Cette dissertation décrit une nouvelle méthode de criblage des interactions physique entre protéines à haut débit chez Saccharomyces cerevisiae, la complémentation de fragments protéiques (PCA). Cette approche est accomplie dans des cellules intactes dans les conditions natives des protéines; sous leur promoteur endogène et dans le respect des contextes de modifications post-traductionnelles et de localisations subcellulaires. Une application biologique de cette méthode a permis de démontrer la capacité de ce système rapporteur à répondre aux questions d'adaptation cellulaire à des stress, comme la famine en nutriments et un traitement à une drogue. Dans le premier chapitre de cette dissertation, nous avons présenté un criblage des paires d'interactions entre les protéines résultant des quelques 6000 cadres de lecture de Saccharomyces cerevisiae. Nous avons identifié 2770 interactions entre 1124 protéines. Nous avons estimé la qualité de notre criblage en le comparant à d'autres banques d'interaction. Nous avons réalisé que la majorité de nos interactions sont nouvelles, alors que le chevauchement avec les données des autres méthodes est large. Nous avons pris cette opportunité pour caractériser les facteurs déterminants dans la détection d'une interaction par PCA. Nous avons remarqué que notre approche est sous une contrainte stérique provenant de la nécessité des fragments rapporteurs à pouvoir se rejoindre dans l'espace cellulaire afin de récupérer l'activité observable de la sonde d'interaction. L'intégration de nos résultats aux connaissances des dynamiques de régulations génétiques et des modifications protéiques nous dirigera vers une meilleure compréhension des processus cellulaires complexes orchestrés aux niveaux moléculaires et structuraux dans les cellules vivantes. Nous avons appliqué notre méthode aux réarrangements dynamiques opérant durant l'adaptation de la cellule à des stress, comme la famine en nutriments et le traitement à une drogue. Cette investigation fait le détail de notre second chapitre. Nous avons déterminé de cette manière que l'équilibre entre les formes phosphorylées et déphosphorylées de l'arginine méthyltransférase de Saccharomyces cerevisiae, Hmt1, régulait du même coup sont assemblage en hexamère et son activité enzymatique. L'activité d'Hmt1 a directement un impact dans la progression du cycle cellulaire durant un stress, stabilisant les transcrits de CLB2 et permettant la synthèse de Cln3p. Nous avons utilisé notre criblage afin de déterminer les régulateurs de la phosphorylation d'Hmt1 dans un contexte de traitement à la rapamycin, un inhibiteur de la kinase cible de la rapamycin (TOR). Nous avons identifié la sous-unité catalytique de la phosphatase PP2a, Pph22, activé par l'inhibition de la kinase TOR et la kinase Dbf2, activé durant l'entrée en mitose de la cellule, comme la phosphatase et la kinase responsable de la modification d'Hmt1 et de ses fonctions de régulations dans le cycle cellulaire. Cette approche peut être généralisée afin d'identifier et de lier mécanistiquement les gènes, incluant ceux n'ayant aucune fonction connue, à tout processus cellulaire, comme les mécanismes régulant l'ARNm. / The quantity of data generated within the framework of protein-protein interaction network large-scale studies exceeds our capacity to analyze them and to understand their meaning; on one hand, by their complexity and their number, and on the other hand, by the quality of the produced data, which are populated with spurious interactions. This dissertation describes new applications of a protein-fragments complementation assay (PCA) to screen for interactions among all proteins in the budding yeast Saccharomyces cerevisiae. This approach is carried out in intact cells, with proteins expressed in their native contexts and under their endogenous promoter, thus assuring correct post-translational modifications and subcellular localization. A further novel application of PCA is described for investigating proteome wide changes in response to cellular adaptation to stresses, such as nutrient starvations and drug treatments. Finally, as a result of the latter strategy applied to characterizing proteome-wide response to the immunosuppressant drug, rapamycin, I describe the discovery of an unforeseen mechanism of modulating cell cycle progression through control of cyclin mRNA stability. In the first chapter of this dissertation, I present a pairwise screen of interactions among proteins resulting from the ~6000 open reading frames in Saccharomyces cerevisiae. We identified 2770 interactions among 1124 proteins. We estimated the quality of our screen by comparing our results to curated gold standard data and coverage of known interactions to all previous studies. The majority of our interactions were novel, but overlap with data from previous studies was as high as 40%. PCA is based on refolding of the reporter protein from complementary N- and C- terminal fragments following interaction of the two proteins to which they are fused. Thus, reporter activity is sterrically limited to interactions in which the termini of the proteins to which the complementary reporter fragments are fused are sufficiently close in space. In the case of our reporter, this limit was 8 nm. Thus PCA is a molecular ruler, providing information on both direct protein-protein interactions and sterrically restricted distances between proteins in complexes. We benchmarked and demonstrated correct topological relationships for a number of known complexes, including the proteasome, RNA polymerase II and the nuclear pore complex. Thus our study provided, for the first time, a topological map of complex organization in a living cell. The integration of the results from such efforts with those of gene regulation dynamics and protein modifications will lead to a fuller understanding of how complex cellular processes are orchestrated at a molecular and structural level in the living cell. In chapter 2, I describe the results of an application of PCA to study the dynamic rearrangement of the proteome under a specific stress; treatment of cells with rapamycin. The results of these efforts were the identification of a novel mechanism of cell cycle control at the level of cyclin mRNA. Specifically, we discovered that the balance between the phosphorylated and dephosphorylated forms of the Saccharomyces cerevisiae arginine methyltransferase, Hmt1, regulates both its assembly into a hexamer and its enzymatic activity. The Hmt1 activity modulates cell cycle progression through stabilizing the B cyclin CLB2 mRNA. We then used PCA to identify the Hmt1 regulators under rapamycin treatment. We identified the catalytic subunit of the PP2a phosphatase, Pph22, activated by the inhibition of TOR, and the kinase Dbf2, activated during entry into mitosis, as the phosphatase and the kinase responsible for the modification of Hmt1 and for its regulatory functions in the cell cycle. I thus, in the end close the circle I began in this summary, going from large-scale discovery of protein-protein interactions, to mapping dynamics of proteome changes during an adaptation and finally to mechanistic insight into a primordial control mechanism in cellular dynamics. The strategies that we devised to discover this mechanism can be generalized to identify and mechanistically link genes together, including those of unknown function, to any cellular process. Biochimie Biochemistry Cycle cellulaire Cell cycle Régulation post-transcriptionelle Post-transcriptional regulation Régulation de cyclines Cyclin regulation Voie de TOR TOR pathway
93	The coupling of transcription termination by RNA polymerase II to MRNA 3' end processing in Saccharomyces cerevisiae / Luo, Weifei. January 2006 (has links) Thesis (Ph.D. in Biochemistry) -- University of Colorado at Denver and Health Sciences Center, 2006. / Typescript. Includes bibliographical references (leaves 135-145). Free to UCD Anschutz Medical Campus. Online version available via ProQuest Digital Dissertations;
94	Molecular mechanisms involved in the pathogenesis of beet soil-borne viruses / Mécanismes moléculaires à l'origine de la pathogenicité de phytovirus de betterave sucrière transmis par un vecteur tellurique Delbianco, Alice 11 April 2013 (has links) Le virus des nervures jaunes et nécrotiques de la betterave (Beet necrotic yellow vein virus, BNYVV) est l’agent infectieux responsable de la rhizomanie de la betterave sucrière, une maladie caractérisée par une prolifération anarchique du chevelu racinaire. Le Beet soil-borne mosaic virus (BSBMV) appartient également au genre Benyvirus mais n’est retrouvé qu’en Amérique du Nord. Ce virus, identifié pour la première fois au Texas, est morphologiquement et génétiquement semblable au BNYVV mais sérologiquement éloigné. Compte tenu des différences moléculaires existant, le BSBMV et BNYVV correspondent à deux espèces virales distinctes. Mon projet de thèse a consisté à étudier les interactions moléculaires entre le BNYVV et le BSBMV et rechercher les mécanismes impliqués dans la pathogénicité de ces deux virus. Des clones complets cDNA infectieux du BNYVV étaient disponibles, tout comme ceux de BSBMV. Compte tenu de l’aspect versatile de l’obtention de transcrits infectieux de ces différents clones, j’ai entrepris de produire des clones cDNA de chacun des ARN viraux sous contrôle d’un promoteur constitutive végétal pour initier l’infection par agroinfiltration. Les plantes hôtes Chenopodium quinoa et Nicotiana benthamiana ont été inoculées par des transcrits et agroinfiltrées pour initier l’infection virale et étudier l’interaction entre les ARN génomiques 1 et 2 des deux virus et étudier les propriétés de constructions chimères. En parallèle à ce travail, j’ai réalisé la caractérisation du suppresseur de RNA silencing du BSBMV en le comparant à celui du BNYVV. / The genus Benyvirus includes the most important and widespread sugar beet viruses transmitted through the soil by the plasmodiophorid Polymyxa betae. In particular Beet necrotic yellow vein virus (BNYVV), the leading infectious agent that affects sugar beet, causes an abnormal rootlet proliferation known as rhizomania. Beet soil-borne mosaic virus (BSBMV) is widely distributed in the United States and, up to date has not been reported in others countries. My PhD project aims to investigate molecular interactions between BNYVV and BSBMV and the mechanisms involved in the pathogenesis of these viruses.BNYVV full-length infectious cDNA clones were available as well as full-length cDNA clones of BSBMV RNA-1, -2, -3 and -4. Handling of these cDNA clones in order to produce in vitro infectious transcripts need sensitive and expensive steps, so Ideveloped agroclones of BNYVV and BSBMV RNAs, as well as viral replicons allowing the expression of different proteins.Chenopodium quinoa and Nicotiana benthamiana plants have been infected with in vitro transcripts and agroclones to investigate the interaction between BNYVV and BSBMV RNA-1 and -2 and the behavior of artificial viral chimeras. Simultaneously I characterized BSBMV p14 and demonstrated that it is a suppressor of posttranscriptional gene silencing sharing common features with BNYVV p14. Benyvirus Rhizomanie RNA silencing Beet necrotic yellow vein virus Beet soil-borne mosaic virus Benyvirus Agroinfection Post-transcriptional gene silencing P14 Chimeras 579.2
95	Efeito da administração aguda de iodo na regulação da expressão do gene do co-transportador de sódio-iodeto (NIS) - estudo in vivo e in vitro. / Effect of acute iodine administration on the regulation of sodium-iodide symporter (NIS) gene expression in vivo and in vitro studies. Caroline Serrano do Nascimento 19 November 2008 (has links) O iodo em excesso promove o efeito Wolff-Chaikoff. Oligominerais já foram descritos como potenciais reguladores da expressão de proteínas. Tornou-se interessante avaliar se o iodo interferiria com a expressão do mRNA da NIS, em curtos períodos de tempo. Foram realizados, em ratos e células (de 30 min24h), estudos de expressão, comprimento de cauda poli-A e recrutamento para polissomos, do mRNA de NIS. Observou-se, in vivo e in vitro, que o excesso de iodo promoveu diminuição da expressão e do comprimento da cauda poli-A do mRNA de NIS, em todos os períodos estudados, além de promover menor recrutamento deste mRNA para os polissomos. A diminuição da cauda poli-A do mRNA de NIS pode ter aumentado sua instabilidade/degradação e também ter sido responsável por uma menor eficiência de tradução deste transcrito. Conclui-se que: (a) o iodo regula pós-transcricionalmente a expressão gênica da NIS, sendo fundamental nos processos que norteiam o efeito Wolff-Chaikoff e (b) oligoelementos têm relevância na regulação da expressão de proteínas relacionadas ao seu transporte. / Iodide in excess exerts the Wolff-Chaikoff effect. It is described that some minerals can regulate the expression of proteins. This study aimed to investigate if the iodide could modify the expression of NIS mRNA, in short periods of time. Rats and cells, divided in time-groups of 30 min up to 24h, were used in studies of expression, poly-A tale length and polysomal profile of NIS mRNA. Both in vivo and in vitro studies showed that the iodide treatment promoted a reduction in the expression and the poly-A length of NIS mRNA, in all time-groups, and decreased its recruitment to the polysomes. It is possible that the reduction of NIS mRNA poly-A tale length has increased the instability/degradation of this transcript, and impaired the translation efficiency of it. Concluding: a) the iodine exerts a post-transcriptional regulation of NIS mRNA expression, being essencial in the processes that guide the Wollf-Chaikoff effect; b) the oligoelements have an extremely important role in the expression regulation of proteins related to their transport. Cauda poli-A Expressão gênica Iodo NIS Regulação pós-transcricional Tratamento agudo Acute treatment Gene expression Iodine NIS Poly-A tale Post-transcriptional regulation
96	Avaliação da importância do controle da estabilidade de RNAm na sinalização por glicose e ABA e na interação desses sinais em Arabidopsis thaliana / Evaluation of the importance of mRNA stability control in glucose and ABA-signaling and in the interaction of these signals in Arabidopsis thaliana Duarte, Gustavo Turqueto, 1982- 21 August 2018 (has links) Orientador: Michel Georges Albert Vincentz / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-21T12:39:15Z (GMT). No. of bitstreams: 1 Duarte_GustavoTurqueto_D.pdf: 11219627 bytes, checksum: b885f7a08525b694c5783c91f122c6c1 (MD5) Previous issue date: 2012 / Resumo: As plantas, sendo organismos sésseis, desenvolveram um conjunto de mecanismos que possibilitam a adaptação a condições ambientais adversas visando à manutenção da homeostase energética para o desenvolvimento e propagação. Tais respostas valem-se da integração entre a biossíntese de hormônios, ativação de vias gênicas de resposta a estresse e um balanço adequado do uso da energia disponível. Os açúcares, além de serem fontes de carbono e energia, também atuam como moléculas sinalizadoras podendo agir conjuntamente com sinais hormonais na adaptação a estresses bióticos e abióticos e no controle do desenvolvimento. Nesse contexto, diversos estudos apontam para uma importante relação entre o ácido abscísico (ABA), um dos principais hormônios relacionados à resposta a estresses, e a glicose. A sinalização por ABA, além de atuar sobre a regulação da transcrição, é conhecida por envolver fatores de controle de estabilidade do RNAm. Contudo, a participação destes mecanismos em respostas mediadas por glicose ainda é pouco explorada. Num primeiro momento, o presente trabalho visou avaliar o potencial das participações de regulações pós-transcricionais em resposta a ABA e glicose em Arabidopsis thaliana, através da determinação do perfil de expressão de RNAm após a inibição da transcrição. Um modelo experimental com condições de inibição de transcrição otimizadas foi estabelecido e utilizado para análise de transcriptoma por microarranjos CATMA em resposta à glicose e ABA. Um total de 962 genes foi identificado como diferencialmente expresso após os tratamentos, sugerindo uma possível regulação pós-transcricional por glicose sobre 204 transcritos, por ABA sobre 245 e pela combinação dos dois sinais sobre 513 transcritos. Esses genes foram classificados de acordo com o Gene Ontology, sugerindo uma relação importante com respostas adaptativas a condições de estresse. Aparentemente, as respostas mediadas por glicose e ABA seguem estratégias opostas, sendo que as respostas pós-transcricionais por ABA podem também atuar como um mecanismo rápido de retro-regulação negativa sobre a via central de sinalização desse hormônio, uma forma de dessensibilizar e reiniciar as respostas da via. Na segunda parte deste trabalho, levando em consideração as evidências do envolvimento do controle de estabilidade de RNAm na sinalização por glicose, foi avaliada a participação da via de regulação por microRNAs (miRNAs) em respostas mediadas por esses sinal durante os estágios iniciais de desenvolvimento da planta. Os mutantes ago1-25 e hyl1-2, deficientes em atividade e biossíntese de miRNAs, respectivamente, apresentaram hipossensibilidade à glicosedurante um determinado período do desenvolvimento da planta, entre a germinação e o estabelecimento. Tal resultado levanta a possibilidade de que a via dos miRNAs participa do atraso do desenvolvimento mediado por glicose. Visando compreender quais miRNAs poderiam estar envolvidos, análise de expressão em larga escala por reação em cadeia da polimerase em tempo real (qRT-PCR) de 200 precursores de miRNAs (pri-miRs) em resposta a glicose foi conduzida, apontando para uma potencial regulação sobre 38 deles, vários dos quais já são conhecidos por participarem direta ou indiretamente do controle de desenvolvimento da planta. Aparentemente, a deficiência na maquinaria de miRNAs leva a um desbalanço nas regulações de genes responsivos à glicose durante os primeiros estágios de desenvolvimento / Abstract: Plants, as sessile organisms, have developed a set of mechanisms that allow efficient adaptation to adverse environmental conditions. These processes rely on the integration of hormone biosynthesis, activation of stress-responsive pathways and on a balanced use of the available energy. Sugars, besides their role as carbon and energy sources, may also function as signaling molecules that may act together with hormonal signals to trigger adaptive responses to biotic and abiotic stresses. In this context, several studies have indicated an important relation between abscisic acid (ABA), one of the major hormones related to abiotic stresses responses, and glucose. ABA signaling, besides its function over transcription control, is known to involve factors regulating the stability of mRNAs. However, the importance of glucose-mediated mRNA decay control is essentially unknown. Our work intended to evaluate the potential of the participation of post-transcriptional regulations in response to ABA and glucose in Arabidopsis thaliana, by determining mRNA profile alteration in response to these signals after transcription inhibition. An experimental model which optimizes the conditions for transcription inhibition was established and used for transcriptome profiling with CATMA microarrays. A total of 962 genes were found to be differentially expressed after the treatments, suggesting a possible post-transcriptional control acting upon 204, 245 and 513 transcripts in response to glucose, ABA and the combination glucose + ABA, respectively. The genes were classified by their functions according to Gene Ontology, suggesting a close relation with adaptive response to stress conditions. Apparently, ABA- and glucose-mediated control of mRNA stability follows two opposite strategies, while ABA post-transcriptional responses may also act as a fast negative feedback mechanism over its own core signaling pathway, as a way to desensitize and reset the pathway responses. The second part of this work focused on the participation of microRNAs (miRNAs) pathway in responses mediated by glucose during plant early developmental stages. The mutants ago1-25 and hyl1-2, which are deficient in miRNA activity and biogenesis, respectively, showed hyposensitivity to glucose during a narrow time window of early plant development, between germination and seedling establishment. Such result raises the possibility that miRNA pathway may be involved in the glucose-mediated delay of early seedling development. To obtain further evidences about which miRNAs could be involved, the expression profile of 200 pri-miRs was evaluated by large-scale quantitative real-timepolymerase chain reaction (qRT-PCR) profiling, indicating that 38 pri-miRNA are potentially regulated by glucose, several of which are known to participate directly or indirectly in plant development. The data indicate that deficiency in miRNA machinery leads to an imbalance on glucose control over gene expression during early seedling development / Doutorado / Genetica Vegetal e Melhoramento / Doutor em Genetica e Biologia Molecular Regulação pós-transcricional Glicose Acido abscisico Arabidopsis RNA mensageiro - Estabilidade Post-transcriptional control Glucose Abscisic acid Arabidopsis thaliana Messenger RNA - Stability
97	Implication de Nanos-3 dans l’invasion tumorale broncho-pulmonaire / Implication of the human Nanos-homolog-3 gene in lung tumor cell invasion Grelet, Simon 15 April 2014 (has links) La transition épithélio-mésenchymateuse (TEM) est un processus physiologique décrit dans le développement embryonnaire et chez l'adulte au cours de la cicatrisation. La TEM est également détournée dans le contexte pathologique au cours de l'invasion tumorale et les mécanismes moléculaires qui la contrôlent font à ce jour l'objet d'intenses investigations. Cette étude décrit le rôle du gène de la lignée germinale NANOS-3 dans la régulation de l'invasion tumorale broncho-pulmonaire associée à la TEM. Nous démontrons que l'expression de Nanos-3 est corrélée à l'agressivité des cancers bronchiques non à petites cellules (CBNPC) humains in vivo et qu'il est surexprimé pendant la TEM induite in vitro. De plus, la surexpression de Nanos-3 dans les lignées tumorales bronchiques augmente leurs capacités invasives in vitro en induisant la TEM alors que son inhibition induit l'effet opposé et promeut la transition mésenchymo-épithéliale (TME). Au cours de cette étude, nous rapportons également des mécanismes à la fois transcriptionnels et post-transcriptionnels de régulation des cibles de Nanos-3. Ainsi, nous montrons que Nanos-3 réprime la transcription du gène CADHERINE-E indépendamment des facteurs de transcription des familles Snail et ZEB. Nous décrivons également que la protéine Nanos-3 co-immunoprécipite avec certains ARNm de ses cibles et, plus particulièrement, qu'elle est capable de réguler la longueur de la queue poly-(A) du transcrit codant pour une de ses cibles majeures : la Vimentine. En parallèle, par des méthodes d'études in silico et in vitro, nous démontrons une localisation à la fois cytoplasmique et nucléaire de Nanos-3 ainsi que son accumulation nucléolaire. Enfin, nous mettons en évidence que la réexpression ectopique de Nanos-3 dans le contexte tumoral pourrait être attribuée à une dérégulation des mécanismes épigénétiques physiologiquement mis en place dans les cellules somatiques adultes. Ainsi, cette étude démontre le rôle de Nanos-3 dans l'acquisition d'un phénotype invasif par les cellules tumorales bronchiques et décrit un nouveau mécanisme de régulation de la TEM dépendant de la longueur de la queue poly-(A) de certains ARNm. / The Epithelial-Mesenchymal Transition (EMT) is a basic cellular process used by embryo to generate different tissues or in adult during wound healing. EMT is also misappropriated by cancer cells during the first step towards metastasis. Molecular mechanisms driving EMT during tumor progression are extensively studied and post-transcriptional regulations of EMT-associated genes emerge as major and promising field in oncology. Here we report a dual post-transcriptional and transcriptional regulation of EMT-associated genes by the NANOS-3 germline gene during lung tumor invasion. We show that the Nanos-3 expression in vivo correlates with aggressiveness of human non-small cell lung carcinomas (NSCLC) and that Nanos-3 is upregulated in cells which undergo an EMT in our in vitro EMT-inducible models. Moreover, Nanos-3 overexpression in human NSCLC cell lines enhances their invasive abilities by EMT regulation while its silencing induces the opposite effect leading to a Mesenchymal-Epithelial Transition (MET). Molecular investigations indicate that Nanos-3 controls its targets by either transcriptional or post-transcriptional mechanisms. We show that Nanos-3 represses E-CADHERIN transcription independently of Snail and ZEB transcription factor families. Moreover, we also find that mRNAs of post-transcriptionally regulated targets are co-immunoprecipitated with the Nanos-3 protein and that Nanos-3 regulates the length of the 3' poly-A tail of VIMENTIN mRNA. This dual mechanism of EMT regulation by Nanos-3 is to be related to the specific subcellular localization of Nanos-3 in both cytoplasm and nucleus associated with a nucleolus accumulation as shown by in vitro and in silico experiments. Finally, we demonstrate an epigenetic regulation of NANOS-3 gene expression in lung cell lines, thus supporting that its ectopic expression could be attributed to an epigenetic machinery deregulation in cancer cells.Thus, here we demonstrate a new innovative role for Nanos-3 in the acquisition of an invasive phenotype by lung tumor cells and we describe a novel mechanism of post-transcriptional regulation of EMT via the control of the mRNA poly-A tail length. Nanos-3 Cancer broncho-Pulmonaire Invasion tumorale Transition épithélio-Mésenchymateuse Régulation post-Transcriptionnelle Human Nanos-3 Lung cancer Tumor invasion Epithelial-Mesenchymal transition Post-Transcriptional regulation
98	Implication des ARN non codant dans la virulence du phytopathogène Agrobacterium fabrum C58 / Implication of non coding RNA in the virulence of the phytopathogene Agrobacterium fabrum C58 Dequivre, Magali 20 February 2015 (has links) L'une des caractéristiques majeures des microorganismes, et donc des bactéries, est qu'ils sont en contact direct avec l'environnement et doivent donc percevoir et répondre rapidement à ses variations. Pour cela, plusieurs niveaux de contrôle existent, et récemment le rôle des ARN non codants régulateurs, ou riborégulateurs, a été mis en lumière comme un mécanisme de contrôle peu couteux et rapide pour la cellule. Chez le phytopathogène Agrobacterium fabrum (anciennement appelé Agrobaterium tumefaciens), la virulence est principalement régulée au niveau transcriptionnel par le système à deux composants VirANirG. L'implication des riborégulateurs dans la virulence d'A.fabrum est encore mal connue et ces travaux de thèse ont eu pour objectif de déterminer l'implication de riborégulateurs dans le cycle infectieux de cette bactérie.Pour cela, nous avons identifié l'ensemble des transcrits d 'A. fabrum C58 en combinant l'utilisation de plusieurs méthodes d'analyses globales et nous avons étudié la fonction de différents candidats transcrits à partir du plasmide Ti (plasmide de virulence). Des souches modifiées dans la production des riborégulateurs candidats ont été construites, Jeurs ARNm cibles ont été prédits et validés, et des tests phénotypiques, en particulier des tests de virulence, ont été réalisés. Ainsi, le séquençage des transcrits de petite taille a permis d'identifier plus d'un millier de riborégulateurs potentiels dont plusieurs sont exprimés à partir de régions en relation avec le cycle infectieux. Nous avons validé 4 de ces petits transcrits comme étant des riborégulateurs puisqu'ils sont de petite taille, non traduits en protéine et fortement structurés (RNAI 111, RNA1083, RNA1059 et RNA1051) . Plus particulièrement, nous avons montré que le riborégulateur RNAI 111 était nécessaire pour la virulence d'A.fabrum C58, et que son action semblait se faire au travers du contrôle post-transcriptionnel de gènes impliqués dans les fonctions de virulence et de transfert du plasmide Ti. Un rôle plus modéré du riborégulateur RNA1083 dans le contrôle du cycle infectieux a également été observé, potentiellement au travers de la modulation de la mobilité et du transfert conjugatif du plasmide Ti. D'autre part, nous avons mis en évidence deux autres riborégulateurs, RNA1059 et RNA1051, qui sont impliqués dans le contrôle du maintien du plasmide Ti via une implication dans la réplication du plasmide (RNA 1059) et via une implication dans un nouveau system de toxine-antitoxine présent sur le plasmide Ti (RNA1051). Ainsi à partir d'une analyse globale nous avons mis en évidence le rôle des riboregulateurs dans les systèmes de mise en place de l'infection bactérienne , soit via le contrôle de facteurs de virulence, soit via le contrôle de la persistance du plasmide responsable de la virulence / One of the main characteristics of microorganisms, including bacteria., is their direct interaction with their environment. They thus need to perceive and quickly answer to its variations. Several steps of control exist, and recently the role of regulatory non-coding RNA, or riboregulator, was highlighted as a fast and economic mechanism of regulation. In the phytopathogen Agrobacterium fabrum (previously named Agrobacterium tumefaciens), the virulence is mainly controlled transcriptionally by the two components system VirANirG. The implication of riboregulators in the virulence of this bacterium is still unknown . The objectives of this thesis were to identify A .fabrum riboregulators and to determine their involvement in the infectious cycle of the bacteria. To this end, we identified small transcripts of A . fabrum C58 strain by combining several global analyses, and we studied the function of different candidates transcribed from the Ti plasmid (the virulence plasmid). Strains modified in the production of these candidates were constructed, their mRNA targets were predicted and validated, and phenotypic analyses -especially virulence tests were realized.Thereby, small transcript deep-sequencing allowed the identification of a thousand potential riboregulators, some of them being transcribed from regions related to the infectious cycle. We validated 4 of these transcripts as riboregulators according to their small size, their strong secondary structure and their non-translation into protein (RNAIOS I, RNA1059, RNA1083 and RNAl ll l). In particular, we showed that RNA 1111 was necessary for the virulence of A. fabrum C58, and that it seems to act through the posttranscriptional control of genes implicated in virulence functions and in Ti plasmid conjugation. A more moderated role of RNA 1083 was also observed, potentially by the modulation of the bacterial mobility and of the plasmid conjugation. Furthermore, we highlighted two riboregulators, RNA1059 and RNA1051, involved in the control of the Ti plasmid persistence, through their implication in the replication of the plasmid (RNA1059) and in a toxin-antitoxin system present on the Ti plasmid (RNA1051) .Thus, from a global analysis, we brought out the role of riboregulators in the control of several steps of the infectious cycle of A. fabrum C58, through the control of virulence factors, or through the contrai of the persistence of the main actor of the virulence, the Ti plasmid Agrobacterium Virulence Plasmide Ti ARN non codant Riborégulateur Régulation post-transcriptionnelle Transcriptome Agrobacterium Virulence Ti plasmid Non coding ARN Riboregulators Post-transcriptional regulatory Transcriptome 579
99	Levantamento de proteínas candidatas a ativadoras do splicing do éxon 12 do gene FMR1 / Screening for candidate proteins to activate FMR1 exon 12 splicing Marcelo Valpeteris de Campos 20 May 2014 (has links) O gene do Retardo Mental do X Frágil (FMR1) possui 17 éxons e seu transcrito primário pode sofrer splicing alternativo, havendo, entre outros eventos, possibilidade de exclusão ou inclusão do éxon 12. O produto da expressão do FMR1, a proteína do retardo mental do X frágil (FMRP), possui papéis importantes no sistema nervoso central, atuando como repressora da tradução de RNAm em espinhas dendríticas e controlando a síntese de proteínas envolvidas na função sináptica. Entre dois domínios centrais do tipo KH presentes na FMRP, o segundo (KH-2) é responsável pela interação da proteína aos polissomos. O domínio KH-2 é codificado pelos éxons 9 a 13 do FMR1 e possui a alça variável mais longa já observada entre proteínas humanas, que é codificada pelos éxons 11 e 12. A inclusão do éxon 12 no RNAm do FMR1 causa uma extensão em fase dessa alça variável do KH-2 da FMRP. Estas isoformas apresentam expressão significativa em neurônios cortico-cerebrais e cerebelares do rato, no primeiro mês pós-natal. Este trabalho baseia-se em resultados prévios do grupo de pesquisa, em que se identificaram sequências curtas no íntron 12 do FMR1, com potencial para agir como acentuadores de splicing. Baseando-nos na hipótese de que essas sequências constituem elementos transcritos que se ligam a fatores proteicos do núcleo celular, potencialmente reguladores do splicing do pré-RNAm do FMR1, realizamos ensaios de precipitação por afinidade com extratos nucleares de córtex cerebral de rato e transcritos do loco, biotinilados. Análises por espectrometria de massas revelaram enriquecimento de proteínas nucleares, contendo domínios de ligação a RNA, principalmente aquelas relacionadas à regulação e processamento de pré-RNAm, sobretudo o splicing / Fragile X Mental Retardation 1 gene (FMR1) comprises 17 exons. Its primary transcript is subject to alternative splicing, allowing for the possibility of exon 12 inclusion or skipping, among other events. The product of FMR1 gene expression, fragile X mental retardation protein (FMRP), has important roles in the central nervous system, acting as a translational repressor in dendritic spines, thus controlling the synthesis of proteins involved in synaptic function. FMRP has two central KH domains. One of them (KH-2) is responsible for its interaction with polysomes. The KH-2 domain is encoded by FMR1 exons 9 to 13. It contains the longest variable loop ever observed among human KH-containing proteins, which is encoded by FMR1 exons 11 and 12. Exon-12 inclusion in FMR1 mRNA causes an in-frame extension of FMRP KH-2 domain variable loop. These isoforms appear significantly expressed in cortico-cerebral and cerebellar neurons of the rat in the first month after birth. We have previously identified short sequences within FMR1 intron 12 that may potentially act as splicing enhancers. Our study is based on the hypothesis that those sequences when transcribed should bind to nuclear protein factors that may function as FMR1 exon 12 pre-mRNA splicing regulators. To initiate an experimental approach to test that hypothesis, we conducted affinity precipitation assays with rat cerebral cortex nuclear extracts and biotinylated transcripts. Mass spectrometry analyses disclosed proteins that have been described to be enriched in the cell nucleus, contain RNA-binding domains, and be functionally related to pre-mRNA processing, notably splicing Elemento em trans FMR1 Precipitação por afinidade Regulação pós-transcricional Splicing alternativo Affinity precipitation Alternative splicing FMR1 Post-transcriptional regulation Trans factor
100	Modification de macromolécules par insertion radicalaire. Etude de la méthylthiotransférase RimO et de la 4-demethylwyosine synthase TYW1 appartenant toutes deux à la superfamille Radical SAM. / Modification of macromolecules by radical insertion. Study of the methylthiotransferase RimO and the 4-demethylwyosine synthase TYW1 both belonging to the Radical-SAM superfamily Molle, Thibaut 12 December 2014 (has links) Ces vingt dernières années, les réactions d'insertion d'atomes ou de fragments moléculaires dans des liaisons C-H peu réactives ont fait l'objet de nombreuses études sans que les mécanismes de ces réactions aient pu être établis. Les enzymes de la superfamille « Radical-SAM » catalysent l'activation de leur substrat en utilisant un centre [4Fe-4S] et le co-substrat S-adénosylméthionine (SAM). Les enzymes d'insertion radicalaire constituent un sous-groupe de cette famille et contiennent un second centre fer-soufre impliqué, lui, dans l'activation du deuxième substrat rendant ainsi possible la réaction d'insertion par couplage radicalaire. Le travail présenté dans cette thèse concerne deux de ces enzymes, la première, RimO, est une méthylthiotransférase (MTTase) qui catalyse l'insertion d'un groupement thiométhyle en beta du résidu D89 de la protéine ribosomale S12 (β-ms-D89-S12). La seconde TYW1 ou 4-demethylwyosine synthase catalyse l'insertion d'un groupement acétyle dérivé du pyruvate dans une liaison C-H d'un groupement N-CH3 appartenant à une guanine spécifique de certains ARNt eucaryotes. Cette réaction d'insertion est suivie d'une cyclisation conduisant en plusieurs étapes à la wybutosine (yW), une base tricyclique importante pour la fidélité traductionnelle de la cellule. Dans ce travail il a été montré que les deux centres de cette famille d'enzyme coopèrent pour ces réactions et contrôlent l'utilisation des différents acteurs par des mécanismes redox originaux. / Over the last twenty years, the insertion reactions of atoms or molecular fragments into poorly reactive C-H bonds have been actively investigated but the details of their mechanisms remain largely unknown. Enzymes belonging to the "Radical-SAM" superfamily catalyze the activation of their substrate using a [4Fe-4S] in conjunction with the co-substrate S-adenosylmethionine (SAM). Radical insertion enzymes are a subgroup of this family and contain a second iron-sulfur cluster involved in the activation of the second substrate allowing the insertion reaction by radical coupling to take place. The work presented in this thesis is focusing on two enzymes, the first one, RimO is a methylthiotransferase (MTTase) that catalyzes the insertion of a thiomethyl group on the beta position of D89 residue of the ribosomal protein S12 (β-ms-D89-S12). The second one, TYW1, or 4-demethylwyosine synthase, catalyzes the insertion of the acetyl moiety of pyruvate into a C-H bond of a N-methyl group of a guanine derivative in some eukaryotic and archeal tRNAs. This insertion reaction leads to the formation of a tricyclic ring and through several steps to wybutosine (yW), a hypermodified nucleotide important for the translational fidelity of the cell. In this work we demonstrate that these radical inserting enzymes utilize the two iron-sulfur clusters to cooperate and that they control the different partners of the reaction by original redox mechanisms. Soufre Fer Chimie radicalaire Centre fer-soufre Modification post-transcriptionnelle Modification post-traductionnelle Sulfur Iron Radical chemistry Iron-sulfur cluster Post-transcriptional modification Post-translational modification 570

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