Global ETD Search

381	Regulation of papillomavirus E2 protein by posttranslational modification Culleton, Sara Poirier 24 April 2015 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Papillomaviruses (PVs) are small, double-stranded DNA viruses. Hundreds of species have evolved to replicate in mammals, birds, and reptiles. Approximately two hundred species are estimated to infect humans alone, and these human papillomaviruses (HPVs) cause diseases ranging from benign warts to anogenital and oropharyngeal cancers. While vaccination is effective at preventing the majority of these infections and their disease outcomes, there are no successful treatments for existing infections; thus, exploration of novel therapeutic targets is warranted. PVs control expression and function of their gene products through alternative splicing, alternate start codons, and post-translational modification (PTM). The viral E2 protein regulates transcription, replication, and genome maintenance in infected cells, and PTMs have been demonstrated for E2 proteins from multiple papillomavirus types. Serine phosphorylation events were reported to influence E2 stability, and our laboratory was the first to describe in vitro acetylation events with implications for E2 transcription function. Here we report confirmation of these acetylation events in vivo and additional data elucidating the role of these PTMs in viral transcription. Moreover, we present a novel phosphorylation site for bovine papillomavirus type 1 (BPV-1) E2 at tyrosine 102 (Y102). Using phospho-deficient and phospho-mimetic point mutants, we found that this site influences E2-mediated transcription and replication, and we hypothesize that phosphorylation at Y102 regulates these activities by interrupting the association of E2 with its binding partners. We also report interaction of BPV-1 E2 and HPV-31 E2 with different receptor tyrosine kinases (TKs), most notably members of the fibroblast growth factor receptor family. We hypothesize that Y102 phosphorylation by these receptors occurs early in infection to limit viral replication and gene expression. Further studies will cement the role of RTKs in PV biology and could reveal novel therapeutic strategies. E2 Papillomavirus Post-translational modification Replication Transcription Tyrosine phosphorylation Papillomaviruses Viral proteins DNA-binding proteins Genetic transcription Papillomaviruses -- Genetics Protein-tyrosine kinase
382	Tumor-stroma interaction mediated by tissue transglutaminase in pancreatic cancer Lee, Jiyoon 08 July 2015 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Pancreatic ductal adenocarcinoma (PDA) is a deadly disease due to early metastasis and resistance to chemotherapy. PDA is commonly associated with a dense desmoplastic stroma, which forms a protective niche for cancer cells. Tissue transglutaminase (TG2), a Ca2+-dependent enzyme, is abundantly expressed in pancreatic cancer cells and crosslinks proteins through acyl-transfer transamidation between glutamine and lysine residues. The objective of the study was to determine the functions of TG2 in the pancreatic stroma. Orthotopic pancreatic xenografts and co-culture systems tested the mechanisms by which the enzyme modulates tumor-stroma interactions. We showed that TG2 secreted by cancer cells is enzymatically active and renders the stroma denser by crosslinking collagen, which in turn activates fibroblasts and stimulates their proliferation. Yes-associated protein (YAP) and transcriptional co-activator with PDZ-binding motif (TAZ) are transcription factors involved in mechanotransduction. The TG2-mediated fibrosis-rich, stiff microenvironment conveys mechanical cues to cancer cells leading to activation of YAP and TAZ, promoting cell proliferation and tumor growth. Stable knockdown of TG2 in pancreatic cancer cells led to decreased size of pancreatic xenografts and increased sensitivity of xenografts to gemcitabine. Taken together, our results demonstrate that TG2 secreted in the tumor microenvironment orchestrates the crosstalk between cancer cells and the stroma, fundamentally impacting tumor growth and response to chemotherapy. Our study supports TG2 inhibition in the pancreatic stroma as a novel strategy to block pancreatic cancer progression. Collagen Pancreatic Cancer Stroma Tissue Transglutaminase YAP/TAZ Pancreatic duct -- Etiology Pancreatic duct -- Cancer Proteolytic enzymes Pancreas -- Tumors Collagen Transcription factors Genetic transcription
383	Muscle gene transfer studies of a 27-BP segment of the troponin I fast gene IRE enhancer Nowacka, Lidia. January 2009 (has links) No description available. Muscle Development. Enhancer Elements, Genetic. Genetic transcription -- Regulation. Muscle proteins. Striated muscle. Muscle, Skeletal -- embryology. Troponin I -- genetics. Mice.
384	Transcriptional regulation in skeletal muscle of zebrafish in response to nutritional status, photoperiod and experimental selection for body size Amaral, Ian P. G. January 2012 (has links) In the present study, the ease of rearing, short generation time and molecular research tools available for the zebrafish model (Danio rerio, Hamilton) were exploited to investigate transcriptional regulation in relation to feeding, photoperiod and experimental selection. Chapter 2 describes transcriptional regulation in fast skeletal muscle following fasting and a single satiating meal of bloodworms. Changes in transcript abundance were investigated in relation to the food content in the gut. Using qPCR, the transcription patterns of 16 genes comprising the insulin-like growth factor (IGF) system were characterized, and differential regulation between some of the paralogues was recorded. For example, feeding was associated with upregulation of igf1a and igf2b at 3 and 6h after the single-meal was offered, respectively, whereas igf1b was not detected in skeletal muscle. On the other hand, fasting triggered the upregulation of the igf1 receptors and igfbp1a/b, the only binding proteins whose transcription was responsive to a single-satiating meal. In addition to the investigation of the IGF-axis, an agnostic approach was used to discover other genes involved in transcriptional response to nutritional status, by employing a whole-genome microarray containing 44K probes. This resulted in the discovery of 147 genes in skeletal muscle that were differentially expressed between fasting and satiation. Ubiquitin-ligases involved in proteasome-mediated protein degradation, and antiproliferative and pro-apoptotic genes were among the genes upregulated during fasting, whereas satiation resulted in an upregulation of genes involved in protein synthesis and folding, and a gene highly correlated with growth in mice and fish, the enzyme ornithine decarboxylase 1. Zebrafish exhibit circadian rhythms of breeding, locomotor activity and feeding that are controlled by molecular clock mechanisms in central and peripheral organs. In chapter 3 the transcription of 17 known clock genes was investigated in skeletal muscle in relation to the photoperiod and food content in the gut. The hypothesis that myogenic regulatory factors and components of the IGF-pathway were clock-controlled was also tested. Positive (clock1 and bmal1 paralogues) and negative oscillators (cry1a and per genes) showed a strong circadian pattern in skeletal muscle in anti-phase with each other. MyoD was not clock-controlled in zebrafish in contrast to findings in mice, whereas myf6 showed a circadian pattern of expression in phase with clock and bmal. Similarly, the expression of two IGF binding proteins (igfbp3 and 5b) was circadian and in phase with the positive oscillators clock and bmal. It was also found that some paralogues responded differently to photoperiod. For example, clock1a was 3-fold more responsive than clock1b. Cry1b did not show a circadian pattern of expression. These patterns of expression provide evidence that the molecular clock mechanisms in skeletal muscle are synchronized with the molecular clock in central pacemaker organs such as eyes and the pineal gland. Using the short generation time of zebrafish the effects of selective breeding for body size at age were investigated and are described in chapter 4. Three rounds of artificial selection for small (S-lineage) and large body size (L-lineage) resulted in zebrafish populations whose average standard length were, respectively, 2% lower and 10% higher than an unselected control lineage (U-lineage). Fish from the L-lineage showed an increased egg production and bigger egg size with more yolk, possibly contributing to the larger body size observed in the early larval stage (6dpf) of fish from this lineage. Fish from S- and L-lineage exposed to fasting and refeeding showed very similar feed intake, providing evidence that experimental selection did not cause significant changes in appetite control. Investigation of the expression of the IGF-axis and nutritionally-response in skeletal muscle after fasting and refeeding revealed that the pattern of expression was not different between the selected lineages, but that a differential responsiveness was observed in a limited number of genes, providing evidence that experimental selection might have changed the way fish allocate the energy acquired through feeding. For example, a constitutive higher expression of igf1a was recorded in skeletal muscle of fish from the L-lineage whereas igfbp1a/b transcripts were higher in muscle of fish from the S-lineage. These findings demonstrate the rapid changes in growth and transcriptional response in skeletal muscle of zebrafish after only three rounds of selection. Furthermore, it provides evidences that differences in growth during embryonic and larval stages might be related to higher levels of energy deposited during oogenesis, whereas differences in adult fish were better explained by changes in energy allocation instead of energy acquisition. In chapter 5 the main findings made during this study and their impact on the literature are discussed. 571.1
385	Transcription Initiation and its Regulation in Mycobacterium Tuberculosis Tare, Priyanka January 2014 (has links) (PDF) The ability to fine-tune gene-expression in the adverse conditions during pre and post infectious stages has contributed in no small measure to the success of Mycobacterium tuberculosis as the deadly pathogen. Multiple sigma factors, transcription regulators, and diverse two component systemshave facilitated tailoring the metabolic pathways to meet the challenges faced by the pathogen. Over the last decade, studies have been initiated to understand the various facets of transcription in mycobacteria. Although not as extensive as the work in other model systems, such as Escherichia coli and eukaryotes, it is evident from these initial studies that the machinery is conserved,yetmany aspects of transcription and its regulation seem to be different in mycobacteria.The work presented in the thesis deals with some of the steps in the process, primarily initiation in the context of the distinct physiology of M. tuberculosis. The detailed kinetic and equilibrium study of a few selected promoters of M. tuberculosis viz.PgyrB1, PgyrR, PrrnPCL1 and PmetU is described in Chapter 2.Different stages of transcription initiation that have been analyzed include promoter specific binding of RNAP, isomerization, abortive initiation and promoter clearance.The equilibrium binding and kinetic studies of various steps reveal distinct rate limiting events for each of the promoter, which also differed markedly in their characteristics from the respective promoters of Mycobacterium smegmatis. In addition, a novel aspect of the transcription initiation at the gyr promoter was unraveled. The marked differences in the transcription initiation pathway seen with rrn and gyr promoters of M. smegmatis and M. tuberculosis suggest that such species specific differences in the regulation of expression of the crucial housekeeping genes could be one of the key determinants contributing to the differences in growth rate and lifestyle of the two organisms. In Chapter 3, the mechanism of growth phase dependent control (GPDC) at a few of the M. tuberculosis promoters has been investigated. The experiments described in the chapter are carried out to demonstrate a different pattern of interaction between the promoters and sigma A (SigA) of M. tuberculosis to facilitate the iNTPs and pppGpp mediated regulation. Instead of cytosine and methionine, thymine at three nucleotides downstream to -10 element and leucine232 in SigA are found to be essential for iNTPs and pppGpp mediated response at the rrn and gyr promoters of the organism. The specificity of the interaction is substantiated by mutational replacements, either in the discriminator or in SigA, which abolish the nucleotide mediated regulation in vitro or in vivo. In chapter 4, the long standing hypothesis that deals with interdependence of the transcription elongation kinetics and the growth rates has been addressed. Previous studies suggest that the rate of synthesis of the key molecules in cells affects the growth kinetics. In order to validate, the kinetics of elongation of RNAPs from M. tuberculosis, M. smegmatis and E. coli whose growth rates vary from very slow to fast is measured. Surface Plasmon Resonance (SPR) is used to monitor the transcription in real time and kinetic equations are applied to calculate the elongation rates. Further, the effects of the composition of the template DNA on the elongation rates of RNAP from E. coli and M. smegmatis, whose genomes show difference in the GC content are explored. The results obtained from the analysis support the hypothesis and also reveal the effect of template composition on elongation rates of RNAP. Mycobacterium Tuberculosis Mycobacterial Transcription Mycobacterium Tuberculosis Promoters Mycobacterial RNA Polymerase (RNAP) Mycobacterial Transcription Initiation Mycobacterial Transciption Machinery Transcription in Mycobacteria Genetic Transcription RNA Polymerase (RNAP) Bacteriology
386	Next-generation transcriptome analysis of deltaretrovirus induced leukemia: from microRNAs to macroRNAs / Etude du transcriptome des leucémies induites par les delta-rétrovirus par séquençage à haut débit: de microARNs à macroARNs Rosewick, Nicolas 03 April 2015 (has links) Plus de 20 million de personnes à travers le monde sont infectées par le virus T-lymphotrope humain de type 1 (HTLV-1), causant des leucémies à cellules T dans ~5 % des individus infectés. Le virus de la leucémie bovine (BLV), structurellement et fonctionnellement proche de HTLV-1, induit des leucémies à cellules B dans des modèles animaux suite à une infection naturelle (bovin) ou expérimentale (mouton). Les mécanismes moléculaires responsables du potentiel oncogène de ces deux virus restent largement incompris. Dans les deux maladies, leucémies T chez l’homme, leucémies B chez l’animal, le site intégration du virus dans les cellules leucémiques est très variable. Il est donc généralement admis que le potentiel oncogène du provirus est principalement lié à l’activité de l’oncoprotéine virale Tax. De manière paradoxale cependant, ni HTLV-1 ni BLV n’expriment de protéines virales au stade tumoral. Dans ce travail, nous avons étudié le transcriptome non codant des leucémies induites par BLV et HTLV-1 par séquençage à haut débit. Dans la première partie, nous démontrons que le provirus BLV n’est en fait pas silencieux dans les cellules tumorales. BLV produit un ensemble de dix microARNs (miRNAs) très abondants et extrêmement conservés dans toutes les tumeurs. Cette observation constitue la première description de miRNAs encodés par un rétrovirus. Les microARNs encodés par BLV sont transcrits par la RNA Polymérase III, stratégie qui permet leur production de façon indépendante de celle des messagers viraux ainsi que leur expression abondante dans le contexte tumoral caractérisé par l’absence d’activité RNA Polymérase II. Nous avons ensuite montré que, comme HTLV-1, BLV produit des transcrits encodés par le brin négatif du provirus. L’analyse par séquençage ARN à haut débit (RNA-Seq) de tumeurs induites par BLV montre l’absence d’expression virale à partir du promoteur viral situé dans le LTR 5’. Cependant, elle révèle la présence de deux transcrits viraux anti-sens non codants (AS1 et AS2) produits par le LTR 3’. Nous avons identifié ces transcrits dans toutes les tumeurs BLV analysées. Enfin, l’analyse RNA-Seq de tumeurs induites par HTLV-1 et BLV a révélé la présence d’interactions transcriptionnelles virus-hôte. Les gènes hôtes affectés sont significativement enrichis en gènes liés au cancer. Ces résultats suggèrent que les transcrits HTLV hbz et BLV AS1 jouent un rôle essentiel dans la tumorigenèse en interagissant avec le génome de l’hôte. Nous avons également détecté ce type de perturbation à des temps précoces dans le modèle expérimental BLV chez le mouton. Ces observations suggèrent que ces interactions virus-hôte constituent des événements précoces qui procurent un avantage sélectif aux clones associés, mais que d’autres altérations -génétiques et/ou épigenetiques- sont nécessaires à l’établissement de la tumeur. En conclusion, nos travaux vont permettre de mieux comprendre le rôle des interactions virus-génome hôte dans l’oncogenèse ainsi que la fonction de transcrits non codants dans le développement des cancers qu’ils soient ou non d’étiologie virale.<p><p>More than 20 million people are infected by Human T-cell Lymphotropic Virus type 1 (HTLV-1) worldwide and this will cause T-cell leukemia in 5% of them. Yet the molecular mechanisms that underlie the oncogenic potential of this virus remain largely unknown. Bovine Leukemia Virus (BLV) is closely related to HTLV1 and causes a very similar B-cell leukemia in cattle and sheep. As for HTLV1, the oncogenic mechanisms underlying BLV-induced leukemia remain poorly understood. In both diseases, leukemic cells harbor mainly one integrated provirus, yet the integration sites are very variable. As a consequence, it is generally assumed that the oncogenic effect of the provirus is largely mediated by the virally encoded Tax protein. Paradoxically, however, both HTLV1 and BLV proviruses are found to be epigenetically silenced in tumor cells. Thus Tax, as any other virally encoded protein, is not expressed in leukemic cells suggesting that other factors are involved in tumorigenesis. In this study we made three observations that might dramatically change the prevalent dogma of HTLV1 and BLV-induced leukemia. First, we demonstrated that the BLV provirus is not silent at all in tumor cells. A cluster of BLV-encoded microRNAs (miRNAs) is highly expressed, accounting for 40% of the miRNAs present in leukemic cells. This finding is the first description of retroviral-encoded miRNAs. BLV miRNAs are transcribed from five independent RNA Pol III units and are exceedingly conserved across BLV isolates (more than the protein coding genes), strongly supporting an essential yet still unknown function. Next we showed that – as HTLV1 – BLV strongly expresses antisense RNAs. High-throughput sequencing of RNA libraries (RNA-seq) from BLV associated tumors, as expected, showed no expression of viral mRNA from the 5’ LTR. However, it did reveal the presence of two novel non-coding antisense transcripts originating in the 3’ LTR of BLV. Finally, RNA-Seq analysis of HTLV-1 and BLV-induced tumors revealed that the viral 3’ LTR-driven antisense RNAs produced by both viruses interact with host genes localized in the vicinity of proviral integration. Enrichment analysis of affected host genes suggests a significant bias towards cancer-related genes. Host gene perturbations were also found at early stages post-infection in the BLV experimental model in sheep, suggesting that provirus-dependent cancer driver gene perturbations trigger initial amplification of the corresponding clones, requiring additional genetic and/or epigenetic changes to develop full blown leukemia. Overall, our findings reveal an unexpected role for BLV and HTLV antisense transcripts and contribute to the understanding of non-coding RNA-mediated mechanisms in leukemogenesis. / Doctorat en Sciences biomédicales et pharmaceutiques / info:eu-repo/semantics/nonPublished Disciplines biomédicales diverses HTLV-I (Virus) HTLV-I infections Leukemia -- Genetic aspects Genetic transcription HTLV-I (Virus) Infections à HTLV-I Leucémie -- Aspect génétique Transcription génétique HTLV-1 BLV transcriptome microRNA
387	Contribution à l'étude de la fonction de la protéine TIAR dans l'embryogenèse et la réponse innée Kharraz, Yacine 14 October 2009 (has links) Le TNF-α est une cytokine pro-inflammatoire du système immunitaire qui, lorsque sa production est déréglée, induit de nombreuses pathologies chez l’homme (cachexie, arthrite rhumatoïde, etc.) Outre une régulation transcriptionnelle de cette cytokine, il existe aussi une régulation post-transcriptionnelle permettant un contrôle affiné de sa production. Le laboratoire de Biologie du Gène étudie cette régulation post-transcriptionnelle faisant intervenir une séquence consensus dans l’ARNm appelée séquence AU-riche (ou ARE pour AU-rich element) et les protéines qui y sont impliquées. Généralement, les ARNm porteurs d’ARE codent pour des protéines dont l’expression est transitoire. Ces gènes requièrent un contrôle très précis de leur expression et c’est pourquoi, en plus d’être soumis à de nombreux contrôles transcriptionnels, la traduction et la stabilité de leurs ARNm sont très finement régulées. La réponse immune innée implique de nombreux ARNm de ce type. Jusqu’à présent, la fonction de la protéine TIAR dans la régulation de l’expression du TNF-α n’a pas été complètement élucidée. Outre le TNF-α, la participation à la réponse immune innée de nombreuses protéines encodées par des ARNm porteurs d’ARE pourrait conférer à la protéine TIAR un rôle de régulateur essentiel dans le contrôle de l’inflammation. Nous avons donc générés plusieurs lignées de macrophages RAW 264.7 surexprimant la protéine TIAR entière ou différents mutants de TIAR afin de déterminer, par une analyse globale par puces à ADN, les ARNm cibles de TIAR au cours de la réponse immune. Cette approche nous a permis de démontrer que la protéine TIAR exerce un contrôle sur le métabolisme de l’ARNm du TNF-α et de MKP-1 (MAP kinase phosphatase 1), une phosphatase majeure dans la voie de signalisation de la MAPK p38. Cette voie de signalisation joue un rôle essentiel dans la stabilisation et la traduction de nombreux ARNm porteurs d’ARE encodant des protéines de la réponse inflammatoire. D’autre part, nous avons voulu étudier in vivo la fonction de la protéine TIAR au cours de la réponse immune. Nous avons, dans ce but, généré des souris transgéniques surexprimant l’isoforme courte de la protéine TIAR. Si nous n’avons pas encore pu mesurer les effets d’une surexpression de TIAR sur la réponse inflammatoire chez ces souris, ces individus transgéniques ont révélé qu’une expression anormale de la protéine TIAR induit une létalité importante au cours du développement embryonnaire. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished Biologie Sciences exactes et naturelles Embryology, Human Messenger RNA Immune response Genetic transcription -- Regulation Embryologie humaine ARN messager Réaction immunitaire Transcription génétique -- Régulation MKP-1 TNF-& réponse immune TIAR embryogenèse régulations post-transcriptionnelles ARNm
388	Etude des mécanismes moléculaires contrôlant la prolifération des cellules de la crête neurale chez le xénope / Study of the molecular mechanisms controlling neural crest cells proliferation in xenopus Nichane, Massimo 06 November 2009 (has links) La crête neurale (CN) est une structure transitoire apparaissant en bordure de la plaque neurale chez les embryons de vertébrés. Au cours du développement embryonnaire, les cellules de la CN prolifèrent, subissent une transition épithélio-mésenchymateuse, migrent et se différencient en de nombreux types cellulaires tels que des neurones et cellules gliales du système nerveux périphérique, des mélanocytes, des cellules musculaires lisses ou des élements du squelette cranio-facial. Afin de mieux comprendre les mécanismes moléculaires contrôlant la prolifération et la spécification des cellules de la CN, nous avons étudié le rôle de deux facteurs de transcription, Hairy2 et Stat3, via des expériences de perte et gain de fonction chez l’embryon de xénope. <p>Le gène Hairy2 code pour un facteur de transcription bHLH-O répresseur. Il est exprimé précocement au niveau de la bordure de la plaque neurale incluant la CN présomptive. Nous avons montré que Hairy2 est requis pour la prolifération des cellules de la CN en aval de signaux FGFs et qu’il maintient les cellules dans un état indifférencié en réprimant l’expression précoce des gènes spécifiques de la CN. Hairy2 réprime aussi la transcription du gène Id3 codant pour un facteur HLH essentiel à la prolifération des cellules de la CN. Id3 affecte également Hairy2. Nous avons observé que la protéine Id3 interagit physiquement avec Hairy2 et bloque son activité, démontrant que les interactions entre Hairy2 et Id3 jouent un rôle important dans la prolifération et la spécification des cellules de la CN. <p>\ / Doctorat en Sciences / info:eu-repo/semantics/nonPublished Sciences exactes et naturelles Biologie Xenopus Vertebrates -- Embryology Cell proliferation Neural crest -- Molecular aspects Genetic transcription Xenopus Vertébrés -- Embryologie Cellules -- Prolifération Crête neurale -- Aspect moléculaire Transcription génétique Development Proliferation Neural crest Hairy2 Id3 Stat3 FGF
389	Etude du rôle des sites de liaison AP-1 intragéniques dans la régulation de l'expression du HIV-1 (Human Immunodeficiency Virus type 1) Vandenhoudt, Nathalie 26 June 2009 (has links) La vitesse de réplication du HIV-1(Human Immunodeficiency Virus type 1), qui semble corrélée de manière directe à la vitesse de progression de la maladie vers le stade SIDA, est essentiellement contrôlée au niveau transcriptionnel. La transcription du HIV-1 est régulée par la structure chromatinienne, des éléments agissant en cis localisés dans les LTRs, des facteurs de transcription agissant en trans et par la protéine virale trans-activatrice Tat (revu dans Quivy et al. 2007, Bisgrove et al. 2005, Rohr et al. 2003, Rabson and Graves 1997). En plus de l’enhancer localisé dans le LTR5’ du HIV-1, un enhancer intragénique, localisé dans le gène pol du HIV-1, inductible par le phorbol 12-myristate 13-acétate (PMA) a été identifié. La localisation progressive de l’activité enhancer a permis de définir deux domaines distincts et indépendants dans cet enhancer intragénique :les fragments 5103 et 5105 localisés respectivement dans la partie centrale du gène pol et dans une région couvrant la fin du gène pol, le gène vif, le gène vpr et le premier exon codant des gènes tat et rev (Verdin et al. 1990). Les fragments 5103 et 5105 se comportent tous deux comme des enhancers inductibles par le PMA lorsqu’ils sont clonés en amont du promoteur de la thymidine kinase dans un vecteur rapporteur en cellules HeLa. Notre laboratoire a précédemment identifié trois sites de liaison pour les facteurs de transcription AP-1 dans le fragment 5103 (Van Lint et al. 1991). <p><p>Au cours de notre thèse, nous avons poursuivi la caractérisation de ces sites de liaison AP-1 et avons montré que les facteurs c Fos, JunB et JunD interagissent in vitro avec ces motifs. Pour chaque site, nous avons identifié des mutations qui abolissent la liaison des facteurs AP-1 sans altérer la séquence en acides aminés sous-jacente de la transcriptase inverse. Par des expériences de transfection transitoire, nous avons démontré que les sites AP 1 intragéniques sont entièrement responsables de l’activité enhancer PMA-dépendante du fragment 5103. De plus, l’activité PMA-inductible du fragment 5103 est inhibée par le mutant dominant négatif A-Fos à condition que les sites ne soient pas mutés. A l’inverse, l’expression ectopique de dimères forcés AP-1 affecte positivement l’activité enhancer du fragment 5103. Enfin, nous avons étudié le rôle biologique des sites AP-1 intragéniques dans la réplication virale et avons montré que ces sites contribuent positivement à l’infectivité du virus.<p><p>Durant la seconde partie de notre thèse, nous avons entamé la caractérisation physique et fonctionnelle du fragment 5105. Nos résultats de transfection transitoire montrent que l’activité PMA inductible du fragment 5105 est localisée dans le dernier tiers de ce dernier :le sous fragment 5105.3. L’analyse bioinformatique de cette région a permis de mettre en évidence un site de liaison pour les facteurs AP-1 in vitro. Des mutations ponctuelles permettent d’abolir la liaison des facteurs à leur site mais altèrent la séquence en acides aminés sous-jacente codant pour les protéines Tat et Rev. Nous avons montré que ce site est impliqué dans l’activité transcriptionnelle de ce fragment. L’expression ectopique du mutant dominant négatif A-Fos inhibe l’activité transcriptionnelle PMA-inductible du fragment 5105. Une analyse bioinformatique plus large nous a ensuite permis d’identifier in vitro, par retard de migration sur gel, 5 sites de liaison pour le facteur YY1 et 2 sites de liaison pour le facteur PU.1 dont les implications pour le virus restent encore à déterminer.<p> / Doctorat en Sciences / info:eu-repo/semantics/nonPublished Sciences exactes et naturelles Biologie HIV (Viruses) Genetic transcription -- Regulation Transcription factors Binding sites (Biochemistry) Viruses -- Reproduction Virus de l'immunodéficience humaine Transcription génétique -- Régulation Facteurs de transcription Sites actifs (Biochimie) Virus -- Reproduction transcription HIV-1 AP-1
390	Evolutionary study of the Hox gene family with matrix-based bioinformatics approaches Thomas-Chollier, Morgane 27 June 2008 (has links) Hox transcription factors are extensively investigated in diverse fields of molecular and evolutionary biology. Hox genes belong to the family of homeobox transcription factors characterised by a 60 amino acids region called homeodomain. These genes are evolutionary conserved and play crucial roles in the development of animals. In particular, they are involved in the specification of segmental identity, and in the tetrapod limb differentiation. In vertebrates, this family of genes can be divided into 14 groups of homology. Common methods to classify Hox proteins focus on the homeodomain. Classification is however hampered by the high conservation of this short domain. Since phylogenetic tree reconstruction is time-consuming, it is not suitable to classify the growing number of Hox sequences. The first goal of this thesis is therefore to design an automated approach to classify vertebrate Hox proteins in their groups of homology. This approach classifies Hox proteins on the basis of their scores for a combination of protein generalised profiles. The resulting program, HoxPred, combines predictive accuracy and time efficiency. We used this program to detect and classify Hox genes in several teleost fish genomes. In particular, it allowed us to clarify the evolutionary history of the HoxC1a genes in teleosts. Overall, HoxPred could efficiently contribute to the bioinformatics toolbox commonly used to annotate vertebrate Hox sequences. This program was then evaluated in non-vertebrate species. Although not intended for the classification of Hox proteins in distantly related species, HoxPred showed a high accuracy in bilaterians. It has also given insights into the evolutionary relationships between bilaterian posterior Hox genes, which are notoriously difficult to classify with phylogenetic trees.<p><p>As transcription factors, Hox proteins regulate target genes by specifically binding DNA on cis-regulatory elements. Only a few of these target genes have been identified so far. The second goal of this work was to evaluate whether it is possible to apply computational approaches to detect Hox cis-regulatory elements in genomic sequences. Regulatory Sequence Analysis Tools (RSAT) is a suite of bioinformatics tools dedicated to the detection of cis-regulatory elements in genomes. We participated to the development of matrix-based pattern matching approaches in RSAT. After having performed a statistical validation of the pattern-matching scores, we focused on a study case based on the vertebrate HoxB1 protein, which binds DNA with its cofactors Pbx and Meis. This study aimed at predicting combinations of cis-regulatory elements for these three transcription factors. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished Sciences exactes et naturelles Biologie Homeobox genes Transcription factors Genetic transcription -- Regulation Phylogeny -- Genetic aspects Bioinformatics Gènes homéotiques Facteurs de transcription Transcription génétique -- Régulation Phylogenèse -- Aspect génétique Bio-informatique evolution hox matrix pattern matching classification bioinformatics

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