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Etude structurale d’un switch moléculaire impliqué dans le quorum sensing chez Bacillus cereus / Structural study of a molecular switch implicated in quorum sensing in Bacillus cereusZouhir, Samira 14 September 2012 (has links)
Les bactéries utilisent un mode de communication appelé quorum sensing pour régulerl’expression des gènes en fonction de la densité de population et contrôler ainsi de façonmulticellulaire des processus tels que la sporulation, la compétence ou la virulence. Chez les bactériesà Gram-positif, le quorum sensing repose principalement sur la production, la sécrétion et la détectionde petits peptides de signalisation.Le projet porte sur l’étude du système quorum sensing: NprR/NprX chez Bacillus cereus, oùNprR est l’effecteur qui reconnait spécifiquement le peptide de signalisation NprX. NprR est uneprotéine bi-fonctionnelle. Seule, elle agit en tant qu’inhibiteur de la sporulation, en complexe avecNprX, elle perd sa fonction initiale au profit d’une activité facteur de transcription impliquée dans lavirulence. NprR appartient à une famille d’effecteurs de quorum sensing appelée RNPP (Rap, NprR,PlcR et PrgX) encore mal caractérisée au niveau structural. Mon projet de thèse a consisté en l’analysestructure-fonction du système NprR/NprX.Pour comprendre la régulation fonctionnelle de NprR par NprX, des études en solution (SECMALSet DLS) ont permis de mettre en évidence un switch moléculaire qui repose sur un changementd’oligomérisation. Ainsi NprX fait basculer NprR d’une conformation Apo dimérique à uneconformation compléxée tétramérique.L’étude structurale par cristallographie a aboutit à la résolution de la structure du complexeNprR/NprX. L’analyse de ce tétramère suggère la reconnaissance de 2 sites distincts sur l’ADN.L’étude structurale par SAXS, a quant à elle, permis de proposer une conformation dimérique de laforme Apo NprR, modèle conforté grâce à une étude par mutagénèse dirigée des résidus d’interface. Ils’agit d’un mode de dimérisation semblable à celui des protéines Rap (membres de la famille RNPP).La caractérisation par ITC de l’interaction NprR/NprX avec différentes formes du peptide,ainsi que l’analyse de la poche de fixation du complexe, ont permis de mieux comprendre la spécificitéd’interaction et de mettre en évidence deux résidus clés de l’effecteur : l’Asn275 essentielle à lafixation du peptide et l’Arg 126 essentielle à l’activation de la fonction facteur de transcription.Ces travaux ont contribué à une meilleure compréhension du système quorum sensingNprR/NprX grâce à l’élucidation du switch moléculaire contrôlé par NprX mais aussi à une meilleureconnaissance de la famille d’effecteurs RNPP. / Bacteria use a communication mode named quorum sensing to regulate gene expression depending on the population density and thus to control processes such as sporulation, competence or virulence in a multicellular manner. In Gram-positive bacteria, the quorum sensing relies mostly on the production, the secretion and the detection of small signaling peptides. The project focuses on the study of the quorum sensing system NprR/NprX in Bacillus cereus, where NprR is the effector, which recognizes specifically the signaling peptide NprX. NprR is a bi-functional protein. In the absence of peptide, it acts as a sporulation inhibitor while in complex with NprX, it acts as transcription factor implicated in virulence. NprR belongs to a family of quorum sensing effectors named RNPP (for the first identified members: Rap, NprR, PlcR and PrgX) still not well characterized at a structural level. My PhD project consisted to perform the structure/function analysis of the NprR/NprX system. To understand the functional regulation of NprR by NprX, I carried out different studies in solution (SEC-MALS and DLS). These results allowed me to highlight a molecular switch based on a changing of the oligomerisation state of the protein. NprX binding switches NprR from an Apo dimeric conformation to a tetrameric complex. The structural study by crystallography led to the resolution of the tetrameric NprR/NprX complex structure. The analysis of this tetramer suggests the recognition of 2 DNA binding sites. The structural study of the dimeric conformation of Apo NprR by SAXS, allowed me to propose a model similar to that of the Rap dimers (members of RNPP family). This model is supported by a directed mutagenesis study of interface residues. The characterization by ITC of the NprR/NprX interaction with different forms of the peptide, as well as the analysis of the binding pocket in the complex, led to a better understanding of the specificity of the interaction. Two key residues of the effector were highlighted: Asn275, essential to peptide binding and Arg126, essential to the activation of the transcription factor function. These results have contributed to a better understanding of the NprR/NprX quorum sensing system thanks to the elucidation of the molecular switch controlled by NprX but also in a better knowledge of the RNPP effectors family.
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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.Cossalter, Viviani 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.
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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.
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