Global ETD Search

11	Mechanistic insights into translational modulation of selected RNAs by RNA helicase A Ranji, Arnaz K. 21 March 2011 (has links) No description available. Biology Molecular Biology RNA helicase A Post-transcriptional control element translation regulation helicases
12	Etude des facteurs régulateurs de la traduction chez Escherichia coli. / Study of regulatory factors of translation in Escherichia coli Nguyen, Huong LE 19 April 2019 (has links) L’analyse des régulations de l’expression des gènes chez les bactéries permet de comprendre l’adaptation des bactéries à leur environnement et dans un contexte de biologie de synthèse d’optimiser la production microbienne de molécules d’intérêt. Notre objectif a été d’étudier la traduction au niveau du génome et ses relations avec les autres processus cellulaires par une approche de biologie des systèmes. Le traductome a été mesuré : pour chacun des ARN messagers, son pourcentage de copies en traduction et sa densité en ribosomes. Pour la première fois, une image complète de l’état traductionnel de E. coli en croissance rapide a été obtenue, caractérisée par une majorité de transcrits avec un très fort pourcentage de copies en traduction mais faiblement chargés en ribosomes. Notre modèle statistique a identifié des facteurs liés à la séquence comme déterminants de la traduction et le rôle important d’un paramètre physiologique : la concentration en ARNm. Pour la première fois, cet effet de la transcription sur la traduction a été validé à l’échelle moléculaire sur plusieurs gènes. Nous avons montré qu’une augmentation de la concentration d’un ARNm par induction transcriptionnelle entrainait une augmentation du pourcentage de copies en traduction et de la charge en ribosomes. / The analysis of gene expression regulation is necessary to better understand bacterial adaptation to environment and to be able in a context of synthetic biology to optimize the production of molecules of interest. The goal of this thesis was to study translation at the genome-wide level and its relationship to other cellular processes using a systems biology approach. First, translation activity at the -omic scale (called the traductome) was measured : for each messenger RNAs, its percentage of copies in translation and ribosome density. For the first time, a complete picture of the translational state in fast growing E. coli cells was obtained, characterized by a majority of transcripts with a very high percentage of copies in translation but a low ribosome density. Our model identified sequence-related factors as determinants of translation but, more surprisingly, the model predicted the important role of a physiological parameter: the mRNA concentration. Thus, more concentrated mRNA would have higher percentage of copies in translation and higher ribosome density. For the first time, this effect of transcription on translation has been validated at the molecular level on several genes. We showed that an increase in mRNA concentration by transcriptional induction results in increases in percentage of copies in translation and in ribosome load. Régulation de la traduction Escherichia coli Analyse génomique Concentration de ARNM Translation regulation Escherichia coli Genome-wide analysis MRNA concentration 571 579
13	Rôle des ribosomes et de leur biogenèse dans la tumorigenèse et la réponse aux traitements chimiothérapeutiques / Role of ribosomes and ribosome biogenesis in tumor development and response to chemotherapeutic treatments Therizols, Gabriel 26 May 2014 (has links) Les cellules cancéreuses produisent une grande quantité de ribosomes afin de synthétiser les protéines nécessaires à leur prolifération rapide. Les mécanismes qui conduisent à cette augmentation de la production de ribosome ne sont que partiellement compris, mais ils semblent intimement liés à l'acquisition du phénotype tumoral. De plus, une nouvelle théorie propose que les ribosomes ne sont pas des effecteurs neutres de la traduction, mais qu'ils jouent un rôle direct dans la régulation de l'expression génique. Cette théorie se base sur l'observation que la composition des ribosomes est hétérogène en fonction des types cellulaires et des conditions environnementales. Dans ce contexte, j'ai étudié les liens entre les altérations des signaux qui contrôlent la biogenèse des ribosomes, tant au niveau quantitatif que qualitatif, et le développement du phénotype tumoral. Ce manuscrit rapporte trois études effectuées au cours de mon travail de thèse. Ces études ont permis d'identifier : i) un nouveau régulateur de la quantité de ribosomes, la LN-Nétrine-1 et ii) des modifications de la composition et de la fonction des ribosomes induites par des altérations génétiques (perte d'activité de p53) et par l'utilisation d'une molécule chimiothérapeutique, le 5- Fluorouracile. Ces perturbations de la quantité et de la fonction des ribosomes modifient le contrôle de la traduction des cellules et la croissance, la prolifération et la survie cellulaire. Il ressort de ces résultats que les ribosomes sont des éléments qui participent au contrôle de l'expression génique et qui jouent un rôle dans la pathologie cancéreuse et la réponse au traitement chimiothérapeutique / Cancer cells produce large amounts of ribosomes to synthesize the proteins required for their rapid proliferation. The mechanisms leading to this increase in ribosome production are only partly understood, but they are related to the acquisition of the tumor phenotype. In addition, a new theory proposes that ribosomes are not neutral effectors of translation, but have a direct role in the regulation of gene expression. This theory is based on the observation that ribosome composition is heterogeneous in different cell types and according to environmental conditions. In this context, I have analyzed the relationships between changes in signals that control ribosome biogenesis, both quantitatively and qualitatively, and the development of the tumor phenotype. This manuscript reports three studies made during this PhD program. These studies identified: i) a novel regulator of the amount of ribosomes, the LN-Netrin-1 and ii) changes in the ribosome composition and function induced by genetic alterations (loss of activity of p53) and by the use of a chemotherapeutic molecule, the 5-Fluorouracil. These perturbations of the amount and the function of ribosomes modify the translation control and cell growth, cell proliferation and cell survival. From these results it can be conclude that ribosomes are elements involved in the regulation of gene expression and play a role in cancer pathology and response to chemotherapy Ribosome Biogenèse des ribosomes Cancer Régulation traductionnelle 5- fluorouracile Ribosome Ribosome biogenesis Cancer Translation regulation 5-Fluorouracil 571.6
14	Investigation of early assembly of OXPHOS complexes during mitochondrial translation Wang, Cong 14 September 2018 (has links) No description available. 572 Mitochondria OXPHOS complex IV complex I Mitochondrial translation Translation regulation Human Structure MITRAC Ribosome C12ORF62 MITRAC15 Biologie (PPN619462639)
15	Upstream open reading frames differentially regulate genespecific translation in the integrated stress response Young, Sara Kathryn 13 May 2016 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Gene expression is a highly coordinated process that relies upon appropriate regulation of translation for protein homeostasis. Regulation of protein synthesis largely occurs at the initiation step in which the translational start site is selected by ribosomes and associated initiating factors. In addition to the coding sequences (CDS) for protein products, short upstream open reading frames (uORFs) located in the 5’-leader of mRNAs are selected for translation initiation. While uORFs are largely considered to be inhibitory to translation at the downstream CDS, uORFs can also promote initiation of CDS translation in response to environmental stresses. Multiple transcripts associated with stress adaptation are preferentially translated through uORF-mediated mechanisms during activation of the Integrated Stress Response (ISR). In the ISR, phosphorylation of α subunit of the translation initiation factor eIF2α (eIF2α~P) during environmental stresses results in a global reduction in protein synthesis that functions to conserve energy and nutrient resources and facilitate reprogramming of gene expression. Many key regulators of the ISR network are subject to preferential translation in the response to eIF2α-P. These preferentially translated genes include the pro-apoptotic transcriptional activator Chop that modifies gene expression programs, feedback regulator Gadd34 that targets the catalytic subunit of protein phosphatase 1 to dephosphorylate eIF2α~P, and glutamyl-prolyl tRNA synthetase Eprs that increases the charged tRNA pool and primes the cell for resumption of protein synthesis after stress remediation. Ribosome bypass of at least one inhibitory uORF is a common theme between Chop, Gadd34, and Eprs, which allows for their regulated expression in response to cellular stress. However, different features encoded within the uORFs of the Chop, Gadd34, and Eprs mRNAs provide for regulation of their inhibitory functions, illustrating the complexities of uORF-mediated regulation of gene-specific translation. Importantly, preferentially translated ISR targets can also be transcriptionally regulated in response to cellular stress and misregulation of transcriptional or translational expression of Gadd34 can elicit maladaptive cell responses that contribute to disease. These mechanisms of translation control are conserved throughout species, emphasizing the importance of translation control in appropriate gene expression and the maintenance of protein homeostasis and health in diverse cellular conditions. Eukaryotic initiation factor 2 Upstream open reading frame Translation regulation Gene expression Proteins Homeostasis Biological transport Genetic translation Phosphorylation
16	2A-induced ribosome stalling Odon, Valèrie M. N. January 2014 (has links) Originally 2A was characterised in foot-and-mouth disease virus. Site directed mutagenesis identified a C-terminus consensus motif [D(V/I)ExNPGP] and it is proposed that 2A interacts with the exit tunnel of the ribosome in a way that a specific peptide bond is skipped between the last glycine of 2A and the proline of 2B, thus providing a discontinuity in translation, resulting in release of discrete proteins from one single ORF. 2A was also identified in other picornaviruses, positive, single and double-stranded RNA insect viruses and mammalian rotaviruses. A motif present at the C-terminus of the 2A oligopeptide [D(V/I)ExNPGP] is very highly, though not completely conserved . The sequence upstream of this motif shows, however, no apparent conservation between 2As of different viruses. In this study, extensive site-directed mutagenesis were performed on several 2A sequences and a series of ‘hybrid' 2As comprising different consensus motifs juxtaposed with different upstream contexts were created as part of a detailed analysis of the mechanism of 2A-mediated ribosome stalling. The results demonstrated that a minimal region of twenty to twenty-three amino acids interacts with the exit tunnel of the ribosome to bring about a pause in processivity, alter the peptidyl transferase centre geometry and restrict the ribosome A site via two distinctive stalling mechanisms. Other molecular analyses tested here will require further optimisations or alternative methods: a visual method to explore the dynamics of re-initiation of translation from proline codon, purification of the translation-regulating factors and structural resolution of 2A sequences. Previously, cellular 2As were identified in non-LTR retrotransposons of trypanosomes. It is reported here as part of two other cellular organisms Saccoglossus kowalevskii (acorn worm) and Branchiostoma floridae (amphioxus). In the acorn worm, the nucleotides sequences corresponding to 2A motifs were part of the untranslated genome. In amphioxus, three 2A elements were identified in hypothetical proteins, and at the N-terminus of twenty non-LTR retrotransposons. 570
17	Études des modifications post-traductionnelles de Khd1p et de leur rôle dans la régulation de la traduction de l'ARNm ASH1 chez la levure Saccharomyces cerrevisiae Paquin, Nicolas January 2008 (has links) Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal. Régulation traductionnelle Translation regulation Localisation d'ARNm mRNA localization ARNm ARNm ASH1 ASH1 Khdlp Khdlp Ycklp Ycklp Phosphorylation Phosphorylation Dégradation de protéine Protein degradation Levure Yeast
18	Mechanisms of translation regulation in long-term synaptic plasticity Hebert-Seropian, Sarah 12 1900 (has links) Les souvenirs sont encodés dans le cerveau grâce aux configurations uniques de vastes réseaux neuronaux. Chaque connexion dans ces circuits est apte à être modifiée. Ces changements durables s’opèrent au niveau des synapses grâce à une synthèse de protéines de novo et génèrent ce qu’on nomme des traces mnésiques. Plusieurs preuves indiquent que, dans certaines formes de plasticité synaptique à long terme, cette synthèse a lieu dans les dendrites près des synapses activées plutôt que dans le corps cellulaire. Cependant, les mécanismes qui régulent cette traduction de protéines demeurent encore nébuleux. La phase d’initiation de la traduction est une étape limitante et hautement régulée qui, selon plusieurs chercheurs, constitue la cible principale des mécanismes de régulation de la traduction dans la plasticité synaptique à long terme. Le présent projet de recherche infirme cette hypothèse dans une certaine forme de plasticité synaptique, la dépression à long terme dépendante des récepteurs métabotropiques du glutamate (mGluR-LTD). À l’aide d’enregistrements électrophysiologiques de neurones hippocampiques en culture couplés à des inhibiteurs pharmacologiques, nous montrons que la régulation de la traduction implique les étapes de l’élongation et de la terminaison et non celle de l’initiation. De plus, nous démontrons grâce à des stratégies de knockdown d’expression d’ARN que la protéine de liaison d’ARNm Staufen 2 joue un rôle déterminant dans la mGluR-LTD induite en cultures. Dans leur ensemble, les résultats de la présente étude viennent appuyer un modèle de régulation de la traduction locale de protéines qui est indépendante de l’initiation. / Memories are encoded in the unique configurations of the vast neuronal networks of the brain. Each of these connections possesses the ability to be modified. Such long-lasting changes at the synapse often require the synthesis of new proteins that create what we call memory traces. Evidence suggests that the signal-induced activation of translation in some forms of synaptic plasticity occurs locally, at the activated synapses, rather than in the soma. However, the mechanisms regulating local and rapid de novo protein synthesis are poorly understood. The initiation step of translation is a highly regulated step and is believed to be the main target of control. The present research project challenges this view for a certain form of long-term synaptic plasticity, metabotropic glutamate receptor-dependent long-term depression (mGluR-LTD). We show, using electrophysiological recordings of dissociated hippocampal neurons in cultures coupled to pharmacological inhibitors, that translation regulation depends on elongation and termination, rather than initiation. Moreover, by exploiting RNA knockdown strategies, we demonstrate that the RNA-binding protein Staufen 2 plays a crucial role in mGluR-LTD induced in cultures. Altogether, the findings of the present study support a model of translation regulation that is downstream of initiation. mGluR-LTD synthèse de protéines protein synthesis translation regulation régulation de la traduction protéines de liaison d'ARN RNA-binding proteins Staufen 2
19	Études des modifications post-traductionnelles de Khd1p et de leur rôle dans la régulation de la traduction de l'ARNm ASH1 chez la levure Saccharomyces cerrevisiae Paquin, Nicolas January 2008 (has links) Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal Régulation traductionnelle Translation regulation Localisation d'ARNm mRNA localization ARNm ARNm ASH1 ASH1 Khdlp Khdlp Ycklp Ycklp Phosphorylation Phosphorylation Dégradation de protéine Protein degradation Levure Yeast
20	PARP12, a novel interferon stimulated gene potentially involved in the control of protein translation and innate immunity Welsby, Iain 16 April 2012 (has links) Poly(ADP-ribose) polymerases belong to a family of proteins with 17 members in human beings. PARP1, the founding member of the family is a protein that synthesizes linear or branched polymers of ADP-ribose on itself or on target proteins. Different members of this family, that do not all possess ADP-ribosyl polymerase activity, are involved in the regulation of various cellular mechanisms. Some members of the family are particularly involved in the positive or negative control of the immune response. PARP1 is a key player in the regulation of inflammation, through its positive control of cell death and of proinflammatory cytokine production. On the other hand, the tankyrases (PARP5a and PARP5b) and PARP14 seem to regulate inflammatory responses in a negative fashion. PARP12 is a poorly characterized member of the family, whose expression is greatly increase following stimulation with type-I interferons, cytokines mainly involved in antiviral defences.<p>PARP12 is a protein that possesses three main domains: A putative RNA binding N-terminal domain composed of tandem CCCH zinc-fingers, a central WWE domain and a C-terminal PARP catalytic domain. In this work, we have shown that the expression of PARP12 is strictly-dependent on type-I interferons, that it possesses ADP-ribosyl transferase activity and that in can regulate the translation of messenger RNA into proteins. PARP12 can be found in stress granules, sites of storage of untranslated mRNAs, and is capable of directly inhibiting the translation of a reporter mRNA when tethered to it, in a manner dependent on its catalytic activity. Furthermore overexpression of wild-type PARP12, in contrast to overexpression of a mutant with no detectable catalytic activity (PARP12-G575W), leads to a general arrest of most cellular translation.<p>On the other hand, we have shown that PARP12 can activate the transcription of genes under the control of an NFκB-dependent promoter, especially when its zinc-fingers are deleted or mutated (PARP12ΔZnF). PARP12ΔZnF is located in structures that can enclose TRIF, RIP1, NEMO, p62/SQSTM1 and ubiquitin. These proteins have all possess an important role in the activation of NFκB signalling cascades. Moreover, we have shown that endogenous PARP12 is situated in ALIS (Aggresome-Like Induced Structures) in LPS-stimulated macrophages. These structures have a possible role in the presentation of antigens on class I major histocompatibility complexes, implying that PARP12 may be involved in the regulation of antigen presentation. <p> / Doctorat en Sciences / info:eu-repo/semantics/nonPublished Biologie NAD-ADP-ribosyltransferase Immune response -- Regulation Poly (ADP-ribose) polymérase Réaction immunitaire -- Régulation stress granules peptide presentation Immune regulation translation regulation

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