Global ETD Search

161	Male genome programming guided by histone acylations / Les acylations des histones guident la programmation du génome mâle Goudarzi, Afsaneh 22 November 2016 (has links) Le principal intérêt de nos études présentées dans ce manuscrit, correspond à la compréhension des évènements, reliés aux acylations d’histones au niveau des lysines (Ks) dans les cellules germinales post méiotiques, qui régulent spécifiquement l’expression des gènes à l’échelle du génome entier.Dans la première partie de mon travail, nous avons élaboré une stratégie afin d’analyser le rôle des « histones acetyl transférases » (HATs), Cbp et p300, dans les cellules germinales post méiotiques. Pour ce faire, nous avons généré une lignée de souris conditionnellement et partiellement invalidée pour les gènes Cbp et p300 dans les cellules post méiotiques. Bien que les souris mâles sont fertiles et que la spermatogénèse semble se dérouler normalement, une analyse transcriptomique des cellules germinales haploïdes post méiotiques précoces et tardives nous a permis d’identifier une série de gènes dont l’expression est augmentée dans les cellules spermatogéniques tardives et qui sont sensibles à la diminution des niveaux de Cbp et p300. Ces résultats ont permis de révéler un programme spécifique d’expression de gènes dans les cellules germinales post méiotiques dépendant des HATs correspondantes.Prenant en compte qu’il existe une variété d’acylations des histones au niveau des lysines, nous avons étendu nos études à une modification à « quatre-carbone », la butyrylation. Nous avons alors initié une analyse comparative de l’acétylation et de la butyrylation de l’histone H₄ en positions K5 et K8 dans les cellules germinales mâles en différentiation. Nous avons cartographié à l’échelle du génome les marques H4K5ac, H4K5bu, H4K8ac, et H4K8bu au niveau de deux étapes développementales critiques avec les cellules méiotiques et les cellules post méiotiques haploïdes. Cette cartographie montre que la majorité des gènes exprimés fortement, à la fois dans les cellules méiotiques et les spermatides précoces rondes haploïdes, qu’au niveau des sites d’initiation de la transcription (TSSs) l’acétylation et la butyrylation sont interchangeables. De façon intéressante, beaucoup de ces promoteurs correspondants sont aussi reconnus par un régulateur essentiel de l’expression des gènes lors de la spermatogénèse, le factor à bromodomaine, Brdt. Une étude détaillée, des capacités de liaison du facteur Brdt sur les parties N-terminales de l’histone H4 portant des combinaisons variées d’acétylation et/ou de butyrylation en position K5 et K8, montre que la marque H4K5bu inhibe fortement la liaison du facteur Brdt. Nos résultats suggèrent qu’en addition à la fonction activatrice de Brdt vis-à-vis du programme d’expression de gènes méiotiques et post méiotiques, l’échange (« turnover ») induit par la butyrylation d’H4K5 est également important. Ce travail montre comment une interconnexion entre deux différentes acylations d’une même lysine peut jouer un rôle régulateur essentiel en augmentant la dynamique de liaison de la chromatine par un lecteur de lysine acétylé, Brdt.Enfin, au cours d’un travail collaboratif portant sur des approches structurales, nous avons montré, malgré le fait que p300 soit répertoriée comme une acétylase robuste, que son activité est réduite lorsque la longueur des chaines acyl augmente. Ces résultats suggèrent qu’in vivo, p300 puisse utiliser un co-facteur spécifique pour assurer des acylations d’histones autre qu’une acétylation.Ces investigations mettent en lumière comment la programmation du génome mâle est guidée par diverses acylations d’histone et révèlent pour la première fois l’existence d’un réseau moléculaire qui régule ces acylations et transmet un impact fonctionnel. / The main focus of the investigations reported in this manuscript is the understanding of the regulatory events that are based on histone lysine modifications in post-meiotic male germ cells, where specific and chromosome-wide regulations of gene expression occur. In the first part of my work we designed a strategy to specifically investigate the role of the histone acetyl-transferases (HATs), Cbp and p300, in post-meiotic male germ cells.Accordingly, we generated double Cbp and p300 conditional knock-out mice resulting in a partial depletion of Cbp and p300 in post-meiotic cells. Although the mice were fertile and spermatogenesis seemed to take place normally, a transcriptomic analysis of early and late post-meiotic germ cells led to the identification of a specific subset of genes with an increased expression in late spermatogenic cells that is highly sensitive to the decreased amounts of Cbp and p300. In conclusion, these results have revealed an interesting new gene expression program specific to post-meiotic male germ cells that are specifically regulated by the considered HATs.Taking into account the occurrence of a variety of histone lysine acylations, we extended these investigations to a four-carbon histone lysine modification, butyrylation. Accordingly, we have undertaken a comprehensive comparative analysis of histone H4 acetylation and butyrylation on its K5 and K8 positions in differentiating male germ cells. Genome-wide mapping of H4K5ac, H4K5bu, H4K8ac and H4K8bu at two critical developmental stages, meiotic and post-meiotic haploid cells, shows an interchangeable use of acetylation and butyrylation in the Transcriptional Start Sites (TSSs) of the most highly expressed genes in both meiotic and haploid round spermatids. Interestingly, many of these promoters are also bound by the essential regulator of spermatogenic gene expression, the BET bromodomain-containing factor, Brdt. A detailed analysis of Brdt binding capacity of H4 tails bearing various combinations of K5 and K8 acetylation and butyrylation showed that H4K5 butyrylation severely interferes with Brdt-binding. Our results therefore indicate that not only Brdt is required for the activation of a meiotic and post-meiotic gene expression program, but also its turnover induced by H4K5 butyrylation is equally important. This work hence highlights how an interplay between two different acylations occurring on the same lysines can play an essential regulatory role by increasing the chromatin binding dynamics of a critical lysine acetyl-reader, Brdt.Finally, in a collaborative work with structural biologists we showed that while p300 is a robust acetylase, its activity gets weaker with increasing acyl chain length. These results suggest that in vivo, p300 would use a specific co-factor to ensure non-acetyl histone acylations.Overall, these investigations shed an important light on how the male genome programming is guided by histone acylations and revealed for the first time a molecular network that regulates histone acylations and mediates its functional impact. Chromatine Épigénétique Modifications post-Traductionnelles Programmation du génome Transcription Embryogenèse précoce Chromatin Epigenetics Post-Translational modifications Genome programming Transcription Early embryogenesis 570
162	Vers une étude approfondie des protéomes : caractérisation des extrémités N-terminales des protéines / Towards an in-depth analysis of proteomes : characterization of protein n-termini Ayoub, Daniel 25 September 2012 (has links) Dans ce travail de thèse, nous avons développé et optimisé une stratégie originale pour la caractérisation des extrémités N-terminales des protéines et des sites de clivages protéolytiques. Elle s’appuie sur la dérivation chimique spécifique des amines N-terminales et nous l’avons adapté à différents types d’échantillons biologiques. L’application de cette stratégie dans des études en biologie nous a permis d’apporter plusieurs éléments de réponse à différentes problématiques. Nous avons ainsi caractérisé les peptides de transit des protéines mitochondriales humaines et ainsi validé/corrigé expérimentalement leurs prédictions dans les banques de données. Nous avons aussi appliqué cette stratégie à l’étude du protéome du parasite P. falciparum. La mise au point de la dérivation N-terminale de protéines immobilisées dans un gel SDS PAGE nous a permis d’étudier le mécanisme d’export des protéines de ce parasite vers sa cellule hôte et de déterminer le rôle des acides aminés impliqués dans cet export. Un réactif de dérivation marqué aux isotopes stables permet d’effectuer des études différentielles des processus protéolytiques que subissent les protéines. Cette stratégie quantitative a été appliquée à l’étude du protéome hépatique du rat soumis au jeûne expérimental. D’autres applications de l’analyse protéomique en biologie sont aussi présentées dans ce manuscrit. / In this manuscript, we describe the development and the optimization of an original strategy for the characterization of protein N-termini and protease cleavage sites. The strategy is based on specific chemical derivation of alpha-amines. We applied this method to the characterization of mitochondrial proteins’ transit peptides which allowed us to experimentally validate/correct their prediction in protein databases. In another study, the strategy was applied to the analysis of the proteome of the malaria parasite Plasmodium falciparum. The optimization of ingel N-terminal derivation and its application to the study of parasite exported proteins allowed us to determine the role of implicated amino acid residues in the signaling and export mechanism of these proteins to the host cell. To enable differential studies of proteolysis, we introduced an isotope labeled derivation reagent. This quantitative method was applied in the context of a study of the rat liver proteome after experimental long-term fasting. Other applications of proteomics in biology are also presented in this manuscript. Protéomique Protéolyse Clivage protéomytique Modifications post-traductionnelles TMPP Mitochondrie Plasmodium falciparum Paludisme Proteomics Proteolysis Protease cleavage Post-translational modifications TMPP Mitochondria Plasmodium falciparum Long term fasting 572.6
163	Analise das proteinas Ki-1/57 e PRMT1 : identificação, mapeamento e caracterização funcional da interação com outras proteinas / Analysis of the proteins Ki-1/57 and PRMT1: identification, mapping and characterization of the interaction with other proteins Passos, Dario Oliveira dos 31 August 2006 (has links) Orientador: Jorg Kobarg / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-07T08:03:42Z (GMT). No. of bitstreams: 1 Passos_DarioOliveirados_D.pdf: 4831709 bytes, checksum: 0aa3e031d4e82dc447636416b68401e8 (MD5) Previous issue date: 2006 / Resumo: A proteína Ki-1/57 que é encontrada tanto no núcleo quanto no citoplasma está associada com atividade de proteína quinase serina/treonina e é fosforilada nestes resíduos após ativação celular. Neste trabalho verificamos que Ki-1/57 interage com a proteína Chromatin-Helicase-DNA-binding domain 3 (CHD3) e com a proteína adaptadora/sinalizadora RACK1 no núcleo. Pelo sistema do duplo híbrido de levedura (SDHL) a proteína arginina metiltransferase 1 (PRMT1) foi selecionada como outra proteína de interação. A PRMT1 integra uma família representada por nove enzimas humanas que catalisam reações de metilação em resíduos de arginina. Em seguida, usando agora a PRMT1 como isca - no SDHL - identificamos as proteínas Ki-1/57 e hnRNPQ, juntamente com outras 13. A maioria delas contêm motivos ¿RGG-box¿ em suas seqüências de aminoácidos, que são conhecidos alvos para metilação. Posteriormente verificamos que Ki-1/57 e seu provável parálogo CGI-55 conservam dois motivos ¿RGG/RXR-box¿ e que são substratos in vitro para a metilação de argininas pela PRMT1. Estudos de mapeamento mostraram que todos os fragmentos contendo o motivo ¿RGG/RXR-box¿ interagem com a PRMT1 e são alvos à metilação in vitro. Ki-1/57 endógena, imunoprecipitada de células L540, mostrou ser metilada in vivo, além de ser um alvo a metilação pela PRMT1 in vitro, somente quando as células são previamente tratadas com o inibidor da metilação Adox. Tratamento das células Hela com o inibidor da metilação (Adox) causa desaparecimento da imuno-marcação citoplasmática de Ki-1/57 e relativa redistribuição do parálogo CGI-55 para o citosol. Assim, pode ser especulado que a metilação destas proteínas deve ser um evento importante para suas localizações subcelulares e conseqüentemente para suas funções. Em resumo, nossos dados sugerem que o SDHL é um método efetivo na identificação de novos substratos celulares para a PRMT1 e poderia ser estendido para a identificação e caracterização de novos substratos para os outros integrantes da família das PRMTs humanas / Abstract: The protein Ki-1/57 that is found both in the cytoplasm and nucleus is associated with serine/threonine protein kinase activity and gets phosphorylated on serine and threonine residues upon cellular activation. We demonstrated that Ki-1/57 interacts with the Chromatin-Helicase-DNA-binding domain protein 3 (CHD3) and with the adaptor/signaling protein RACK1 in the nucleus. By utilizing the yeast two-hybrid system (YTHS), we were further able to find the protein arginine-methylatranseferase-1 (PRMT1) as another interacting protein. PRMT1 is a member of the family constituted by 9 human enzymes that catalyze methylation reactions on arginine residues. Afterwards, by using PRMT1 as bait in the YTHS we identified both Ki-1/57 and NSAP1 as interacting proteins, along with 13 other proteins. The majority of them present RGG-box clusters in their amino acid sequences, which are known to be targets for arginine methylation. We further found that Ki-1/57 and its putative paralogue CGI-55 have two RGG/RXR-box clusters conserved between them and that they are substrates for arginine-methylation by PRMT1 in vitro. In mapping studies, we observed that all Ki-1/57 protein fragments containing the RGG/RXRbox clusters interact with PRMT1 and are targets for methylation in vitro. Endogenous cellular Ki-1/57 seems to be methylated in vivo and is a target for methylation by PRMT1 in vitro, only when cells have been previously treated with the methylation inhibitor Adox. Treatment of Hela cells with the inhibitor of methylation (Adox) causes the disappearance of the immuno-staining of Ki-1/57 in the cytoplasm and a relative redistribution of the paralogue CGI-55 to the cytosol. It can therefore be speculated that the methylation of these proteins is important for their sub-cellular localization and in consequence for their function. In summary our data suggest that the YTHS is an effective method for the identification of novel cellular PRMT substrates and could be extended for the identification and characterization of novel substrates to the other components of the human PRMT1 family / Doutorado / Bioquimica / Doutor em Biologia Funcional e Molecular Metilação de arginina Localização celular Técnicas do sistema de duplo-híbrido Interações proteina-proteina Modificação pós-traducional Arginine methylation Cellular localization Protein-protein interactions Yeasts two-hybrid system Post-translational modification
164	Identificação das proteínas do veneno de abelhas africanizadas (Apis mellifera L.) imunoreativas ao soro antiveneno por abordagem proteômica / Identification of proteins from honeybee venom (Apis mellifera L.) immunoreactives to antivenom serum through a proteomic approach Keity Souza Santos 23 September 2008 (has links) O estudo de venenos de artrópodes é de grande interesse para melhorar os tratamentos contra envenenamentos e oferece uma ótima ferramenta para melhor compreensão dos sistemas nervoso e imunológico, coagulação sanguínea e respostas inflamatórias. As abelhas são um dos animais venenosos mais estudados e a elucidação do seu proteoma é de interesse na elucidação de reações tóxicas e alérgicas a ferroadas. O número de acidentes envolvendo estes insetos é crescente, tendo ultrapassado 20.000 notificações entre 2001 e 2006 em todo o país e, apesar disso, não há um tratamento específico para estas vítimas, nem mesmo uma identificação completa dos antígenos presentes nesse veneno. O perfil protéico descrito até então apresenta cerca de 40 proteínas. O objetivo deste trabalho foi identificar o perfil protéico do veneno de abelhas utilizando a união da abordagem proteômica e da cromatografia de afinidade. Identificar também as proteínas alergênicas deste veneno e algumas modificações pós-traducionais como fosforilação e glicosilação. Além disso, um soro antiveneno específico foi produzido e sua ação neutralizadora testada. O veneno de abelhas foi separado por cromatografia de afinidade utilizando o soro antiveneno imobilizado em coluna de Sepharose 4B. Para identificação das proteínas foram utilizadas técnicas de 2D-SDS-PAGE, MALDI TOF/TOF e nanoESI-LC/MS-MS. Ensaios de Western Blotting foram realizados para identificar as proteínas alergênicas e fosforiladas. A utilização da cromatografia de afinidade permitiu a identificação 2 de proteínas pouco abundantes. Foram identificadas 54 proteínas, dentre as quais 9 nunca haviam sido descritas neste veneno, como MRJP-2, alfaglicosidase, transferinas, proteases, quinases e um inibidor de protease. Após a identificação destas proteínas foi possível propor um provável mecanismo de ação deste veneno. Dentre as proteínas identificadas como alergênicas, a MRJP-8 foi identificada pela primeira vez, juntamente com fatores relacionados ao PDGF e VEGF. Os resultados dos ensaios de neutralização de atividades citotóxicas, hemolíticas e miotóxicas mostraram a eficiência do soro antiveneno produzido. Chegou-se a um volume de 5,7 mL de soro antiveneno necessários para neutralizar a ação tóxica provocada por 100 ferroadas de abelhas. Este valor está na mesma faixa de eficiência dos melhores antivenenos (ofídicos, aracnídicos e escorpionídicos) produzidos no Brasil e no mundo. O lote de soro antiveneno produzido mostrou resultados satisfatórios para ser utilizado nos testes clínicos / The aim of this work was to identify the protein profile of honeybee venom, and detect allergenic proteins and post-translational modifications. Furthermore specific antivenom was produced and potency tests were performed in order to check its power of neutralization of toxic activities of venom. They were identified 54 proteins, 9 that have never been reported before in this venom. After identification of these proteins it was possible to outline a feasible mechanism of action of venom. For the first time MRJP-8, transferrin, PDGF and VEGF factors were identified as allergenic. Results of neutralization of citotoxic, hemolytic and myotoxic activities showed the efficacy of antivenom that had satisfactory results to be tested in clinical assay Alérgenos Antivenenos Proteoma/toxicidade Toxinas biológicas Venenos de abelha Allergens Antivenins Bee venoms Protein processing post-translational Proteome/toxicity Toxins biological
165	Evidências de redundância funcional entre as pró-hormônio convertases no processamento pós-traducional do precursor da vitelogenina VIT-6 do nematóide Caenorhabditis elegans. / Functional redundancy in the post-translational processing of the vitellogenin VIT-6 precursor by Caenorhabditis elegans proprotein convertases. Juliana Andreoni Nico 29 January 2009 (has links) Caenorhabditis elegans possui quatro genes de kpcs (kex2/subtilisin-like proprotein convertases): kpc-1, kpc-2/egl-3, kpc-3/aex-5, kpc-4/bli-4. Em C. elegans, dois dos quatro polipeptídeos de vitelogenina encontrados dentro dos ovócitos, YP115 e YP88, se originam a partir de um precursor polipeptídico (VIT-6) clivado pós-traducionalmente após o motivo RGKR. Nematóides transgênicos foram produzidos com construções repórteres transcricionais de GFP. Foi verificada expressão de kpc-1 tanto em neurônios quanto em células musculares e intestinais. Esses dados, aliados aos dados da literatura para os outros genes kpc de C. elegans, sugerem o envolvimento de KPC-1 no processamento de VIT-6, que é secretada por células intestinais. Ensaios de Western-blot compararam o processamento de VIT-6 em nematóides selvagens, mutantes e knock-down por RNAi para os diferentes genes kpc. A análise de nematóides mutantes e knock-down por RNAi combinado para os outros três genes de convertase de C. elegans confirmou a redundância da atividade dessas enzimas no processamento de VIT-6. / Four kpc genes are found in the Caenorhabditis elegans genome: (kex2/subtilisin-like proprotein convertases): kpc-1, kpc-2/egl-3, kpc-3/aex-5, kpc-4/bli-4. Two of the four vitellogenin polypeptides, YP115 and YP88, originate from a precursor, VIT-6. VIT-6 is cleaved post-translationally after the RGKR motif. Transgenic worms carrying GFP transcription reporter constructs were produced. Expression of kpc-1 has been localized to neurons as well as muscular and intestinal cells. These data, together with the ones available from the literature for the other kpc genes, suggest the involvement of KPC-1 in the processing of VIT-6, which is secreted from intestinal cells. Western-blot analysis compared the pattern of VIT-6 processing in wild-type, mutants and RNAi-treated worms for the other kpcs. Analysis of worms treated by combined RNAi confirmed the redundancy of KPCs in VIT-6 processing. Caenorhabditis elegans Pró-hormônio convertase Processamento-pós traducional Redundância funcional RNAi Vitelogênese Caenorhabditis elegans Functional redundancy Post-translational processing Pro-protein convertase RNAi Vitellogenesis
166	Déchiffrer le code histone : épigénétique et toxicologie placentaire / Decipher the histone code : epigenetics and placental toxicology Bilgraer, Raphaël 16 December 2014 (has links) En influençant le degré de compaction de la chromatine ainsi que ses interactions avec différents partenaires protéiques, les modifications post-traductionnelles des histones sont impliquées dans la régulation de l’expression des gènes. Avec les différents variants d’histones incorporés dans la chromatine, ces modifications dynamiques et sensibles à l’environnement sont constitutives du code histone. Ce travail présente une approche globale de criblage baptisée approche histonomique, visant à révéler une perturbation épigénétique à l’échelle des histones. Cette approche originale offre une comparaison rapide et fiable des abondances relatives des variants d’histones et de leurs modifications post-traductionnelles dans des cellules humaines en une seule analyse LC-MS. Comme preuve de concept, des cellules BeWo issues de choriocarcinome humain ont été exposées au butyrate de sodium, un inhibiteur non spécifique d’histones désacétylases. Les histones extraites des échantillons témoins ou traités au butyrate de sodium à 1 ou 2,5 mM ont été analysées par chromatographie liquide ultra performante couplée à un spectromètre de masse de type Q-TOF. Les analyses statistiques multivariées ont permis de discriminer les échantillons témoins des échantillons traités sur la base des différences de degrés d’acétylation observés sur plusieurs formes d’histones. La même approche a ensuite été appliquée à des cellules exposées au B[a]P à 1 μM et a révélé deux principaux marqueurs caractéristiques d’un remodelage de la chromatine induit par les effets génotoxiques duB[a]P. En résumé, cette approche histonomique globale pourrait se révéler être un outil complémentaire très utile pour explorer une potentielle perturbation du code histone lors d’exposition à des xénobiotiques environnementaux. / While acting upon chromatin compaction, histone post-translational modifications (PTMs) are involved in modulating gene expression through histone–DNA affinity and protein–protein interactions. These dynamic and environment-sensitive modifications are constitutive of the histone code that reflects the transient transcriptional state of the chromatin. Here we describe a global screening approach for revealing epigenetic disruption at the histone level. This original approach enables fast and reliable relative abundance comparison of histone PTMs and variants in human cells within a single LC-MS experiment. As a proof of concept, we exposed BeWo human choriocarcinoma cells to sodium butyrate (SB), a universal histone deacetylase (HDAC) inhibitor. Histone acide xtracts equally representing 3 distinct classes, Control, 1 mM and 2.5 mM SB, we reanalyzed using ultra-performance liquid chromatography coupled with a hybrid quadrupoletime-of-flight mass spectrometer (UPLC-QTOF-MS). Multivariate statistics allowed us to discriminate control from treated samples based on differences in the acetylation level of several histone forms. We then applied the same procedure to cells treated with 1 μMB[a]P and suceeded in revealing two markers of chromatin remodeling in relation withgenotoxic properties of B[a]P. Indeed, this untargeted histonomic approach could be auseful exploratory tool in many cases of environmental xenobiotic exposure when histone code disruption is suspected. Placenta Toxicologie Épigénétique Histones Modifications post-traductionnelles Chromatographie liquide Spectrométrie de masse Polluants environnementaux Placenta Toxicology Epigenetics Histones Post-translational modifications Liquid chromatography Mass spectrometry Environmental pollutants 572.66
167	Studies on ribosomal oxygenases Sekirnik, Rok January 2014 (has links) The 2OG oxygenases comprise a superfamily of ferrous iron dependent dioxygenases with multiple biological roles, including in hypoxia sensing, transcriptional control, and splicing control. It was recently proposed that 2OG oxygenases catalyse the hydroxylation of ribosomal proteins in prokaryotes (ycfD) and in humans (NO66 and MINA53), raising the possibility that 2OG oxygenases also control translation. The work described in this thesis concerned investigations on the biochemical and functional aspects of prokaryotic and mammalian ribosomal protein hydroxylases (ROX) in vitro and in cells. An efficient chromatographic system linked to mass spectrometric analysis (LC-MS) was developed for studying the masses of individual ribosomal proteins (>90% coverage of ribosomal proteome) to ±1 Da accuracy. It was demonstrated that ycfD catalyses the hydroxylation of R81 on L16 in E. coli, in a manner dependent on atmospheric oxygen levels. YcfD deletion results in growth phenotype at low temperatures and in minimal medium, and in decreased global translation rates in minimal medium; ycfD deletion does not affect translational accuracy and ribosome assembly. Furthermore, ycfD-deletion results in increased sensitivity to the antibiotics chloramphenicol and lincomycin. Consistent with a 2OG-oxygenase mediated mechanism of antibiotic resistance, chloramphenicol sensitivity of the E. coli wild-type strain could be increased by inhibiting the activity of ycfD by removing co-factors required for catalytic activity (Fe(II) and O2), and, at least in part, by using a ycfD inhibitor, IOX1, which inhibits ycfD with IC<sub>50</sub> of 38 μM in vitro. The therapeutic potential of a post-translational modification mediating antibiotic resistance provides an opportunity for medicinal targeting of ribosome-modifying enzymes, for example ycfD, which may be more ‘druggable’ than the ribosome itself. In co-treatment with an existing antibiotic, such as chloramphenicol, a small molecule inhibitor would achieve a potentiated antibiotic effect. Structural aspects of ROX hydroxylation were pursued by characterising a thermophilic ROX-substrate complex; a ycfD homologue was identified in the thermophilic bacterium Rhodothermus marinus and shown to be a thermophilic 2OG oxygenase ycfD<sub>RM</sub>, acting on R82 of ribosomal protein L16<sub>RM</sub>. The activity of ycfD<sub>RM</sub> in cells was limited at high growth temperature and oxygen solubility was demonstrated as a likely limiting factor of ycfD<sub>RM</sub> activity, thus identifiying a potential 2OG oxygenase oxygen sensor in prokaryotes. A crystal structure of ycfD<sub>RM</sub> in complex with L16RM substrate fragment was determined to 3.0 Å resolution. Structural analyses suggested that ycfD<sub>RM</sub> contains 30% more hydrophobic interactions and 100% more salt-bridge interactions than ycfD<sub>EC</sub>, suggesting that these interactions are important for thermal stabilisation of ycfD<sub>RM</sub>. The structures reveal key interactions required for binding of ribosomal proteins. Substantial structural changes were observed in the presence of the substrate fragment, which implies induced-fit binding of the L16<sub>RM</sub> substrate. The work has informed further structural studies on the evolutionarily related human ROX, NO66 and MINA53, for which substrate structures have been obtained since the completion of the work. The LC-MS analysis of ribosomal proteins was extended to mouse and human cells to demonstrate that the human ROX homologue of ycfD, MINA53, hydroxylates the 60S ribosomal protein rpL27a in cells. It was demonstrated that rpL27a hydroxylation is widespread and found in all mouse organs analysed, as well as in cancer cell lines and in clinical cancer tissues. A partial or complete reduction of rpL27a hydroxylation was observed in a number of clinically identified MINA53 mutations from the COSMIC database of cancer mutations. Structural analysis suggested that mutations occur more frequently at structurally important regions of MINA53, including the βIV-βV insert in the core fold of MINA53. The identification of inhibiting clinical mutations suggests that rpL27a hydroxylation level could be used as a cancer mark, and in the future for selective inhibition by ribosomal antibiotics. The work presented in this thesis demonstrates that it is possible to selectively inhibit modified ribosomes; an inhibitor of unhydroxylated rpL27a could therefore, at least in principle, be active against the sub-set of tumours with inactivating mutation(s) of MINA53, but not normal tissue. Future work should therefore focus on identifying a selective inhibitor of unhydroxylated eukaryotic ribosomes which could be applied for treatment of cancers harbouring deactivating MINA53 mutations. The same approach could be applied to other ribosome modifications (to rRNA, ribosomal proteins, and ribosome-associate factors) that are different in cancer compared to normal cells. 572
168	Characterization of the Protein Lysine Methyltransferase SMYD2 Lanouette, Sylvain January 2015 (has links) Our understanding of protein lysine methyltransferases and their substrates remains limited despite their importance as regulators of the proteome. The SMYD (SET and MYND domain) methyltransferase family plays pivotal roles in various cellular processes, including transcriptional regulation and embryonic development. Among them, SMYD2 is associated with oesophageal squamous cell carcinoma, bladder cancer and leukemia as well as with embryonic development. Initially identified as a histone methyltransferase, SMYD2 was later reported to methylate p53, the retinoblastoma protein pRb and the estrogen receptor ERalpha and to regulate their activity. Our proteomic and biochemical analyses demonstrated that SMYD2 also methylates the molecular chaperone HSP90 on K209 and K615. We also showed that HSP90 methylation is regulated by HSP90 co-chaperones, pH, and the demethylase LSD1. Further methyltransferase assays demonstrated that SMYD2 methylates lysine K* in proteins which include the sequence [LFM]-₁-K*-[AFYMSHRK]+₁-[LYK]+₂. This motif allowed us to show that SMYD2 methylates the transcriptional co-repressor SIN3B, the RNA helicase DHX15 and the myogenic transcription factors SIX1 and SIX2. Finally, muscle cell models suggest that SMYD2 methyltransferase activity plays a role in preventing premature myogenic differentiation of proliferating myoblasts by repressing muscle-specific genes. Our work thus shows that SMYD2 methyltransferase activity targets a broad array of substrates in vitro and in situ and is regulated by intricate mechanisms. Lysine Methylation Post-Translational Modifications SMYD2 SET Methyltransferase SMYD HSP90 Myogenic Differentiation Computational Protein Design Multi-State Design SIX1 SIX2 DHX15 SIN3
169	Etude de la régulation de l'activité transcriptionelle de la protéine Abdominal-A / A study into the regulation of the transcriptional activity of Abdominal-A Zouaz, Amel 16 December 2013 (has links) Les gènes Hox codent des facteurs de transcription à homéodomain (HD). Bien que ce dernier reconnaisse des séquences similaires in vitro, les protéines Hox achèvent des fonctions hautement spécifiques in vivo. Des séquences protéiques en dehors de l’HD influencent la spécificité d’action des protéines Hox par le recrutement de cofacteurs, dont le mieux caractérisé est Extradenticle (Exd) chez la drosophile. Des travaux récents au sein de notre équipe ont démontré la contribution fonctionnelle de trois motifs de AbdA, aussi bien dans des fonctions Exd-dépendantes qu’à des fonctions Exd-indépendantes. Mon travail de thèse a porté sur la caractérisation de la contribution des motifs protéiques de AbdA dans la sélection puis dans la régulation des gènes cibles en utilisant une approche combinée ChIPseq/RNAseq, dans un contexte Exd-indépendant. Le code ADN identifié nous a renseigné sur la présence d’inputs transcriptionnels additionnels. Ces derniers correspondant à des facteurs de transcription déjà connus, leur présence dans un complexe protéique avec AbdA a été démontrée par des analyses de spectrométrie de masse. Un second volet de mon travail de thèse a été l’identification de modifications post-traductionnelles pouvant rendre compte d’un mécanisme de régulation de l’activité des protéines Hox. Des analyses prédictives in silico, confirmées par des approches biochimiques et des analyses in vivo ont démontré la SUMOylation de AbdA. Ces résultats préliminaires posent les bases pour des travaux futures qui auront pour objectif d’identifier les résidus d’AbdA SUMOylés et d’élucider le rôle de cette modification dans la régulation de l’activité de la protéine AbdA. / Hox genes encode homeodomain-containing transcription factors (HD). Although the HD binds to similar DNA sequences in vitro, Hox proteins display a high functional specificity in vivo. Protein motifs outside of the HD influence Hox specificity through recruiting additional cofactors, with the best characterized being Extradenticle (Exd in Drosophila). Recent evidence from our group has uncovered the functional contribution of AbdA intrinsic motifs to AbdA Exd-dependent functions as well as AbdA Exd-independent functions. My PhD work has aimed to characterize the contribution of AbdA motifs to target gene selection and regulation using a combined approach of ChIPseq/RNAseq in an Exd-independent context. The DNA code identified provides us with new insights about additional transcriptional inputs from additional DNA-binding proteins lying in the vicinity of AbdA recognition sites. Mass spectrometry analysis establishes the occurrence of these additional DNA binding proteins in a multi-protein complex with AbdA. Deciphering the involvement of post-translational modifications in the regulation of Hox protein activity was another aspect of my PhD work. In silico predictive analysis, followed by biochemical approaches and in vivo assays reveal the potential for SUMOylation of AbdA as a potentially important regulatory component of AbdA activity. These preliminary results set the bases for further work aimed at identifying SUMOylated residues on AbdA and the functional relevance of such post-translational modification on AbdA activity regulation. Facteurs de transcription Protéines Hox AbdA Motifs protéiques Drosophile ChIPseq RNAseq Modificationpost-traductionnelles Transcription factor Hox proteins AbdA Protein motifs Drosophila ChIPseq RNAseq Post-translational modifications 571.8
170	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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