Global ETD Search

81	Ciblage & élimination des transposons et de leurs vestiges lors des réarrangements programmés du génome somatique de la paramécie / Targetting & elimination of transposons and their remnants during programed re-arrangments of paramiecium somatic genome Denby Wilkes, Cyril 13 November 2014 (has links) Les éléments transposables (ET) ont un impact majeur sur le fonctionnement etla dynamique des génomes, à l’échelle de l’individu et de l’espèce. Le cilié Parameciumest un modèle original pour l’étude des ET. Chaque individu unicellulaire a un génomegerminal qui subit, lors des processus sexuels, des réarrangements massifs, comprenantl’élimination des ET et de leurs vestiges à copie unique, pour former un génome somatiqueoptimisé pour l’expression des gènes. La programmation épigénétique de cesréarrangements implique des petits ARN dans un processus complexe de soustractiongénomique.Au cours de ma thèse, j’ai effectué des analyses bioinformatiques et biostatistiques dedonnées hétérogènes à l’échelle du génome pour : (i) Identifier et analyser des propriétésintrinsèques, de dizaines de milliers de vestiges d’ET à copie unique, appelés "InternalEliminated Sequences" (IES). (ii) Comprendre le rôle de déterminants génétiques et dedifférents facteurs épigénétiques dans le ciblage et l’élimination des IES.L’ensemble de ces analyses met en lumière la co-Évolution des ET et des mécan-Ismes de défense de l’hôte. / Transposable elements (TE) have major impact on the function and dynamicsof genomes, both at the level of the individual and of the species. The ciliate Parameciumprovides an original model for studies of TE. Each individual unicell has a germlinegenome that undergoes massive rearrangements at each sexual generation including thephysical elimination of TE and their single copy remnants, yielding a somatic genomestreamlined for gene expression. The epigenetic programming of the rearrangementsinvolves small RNAs in a complex process of genomic subtraction.During my thesis, I carried out bioinformatic and biostatistical analyses of heteroge-Neous, genome-Scale datasets in order to : (i) Identifiy and study the intrinsic propertiesof tens of thousands of TE remnants know as "Internal Eliminated Sequences" (IES).(ii) Explore the roles of genetic determinants and epigenetic factors in the targeting andelimination of the IESs.Taken together, the studies illustrate the co-Evolution of TE and host defense mecha-Nisms. Élément transposable Transposons Génome Bioinformatique Paramécie Petits ARN Transposable element Transposon Genome Bioinformatics Paramecium Small RNAs
82	Sex, parasitic DNA and adaptation in experimental populations of Saccharomyces cerevisiae and Chlamydomonas reinhardtii Zeyl, Clifford. January 1996 (has links) No description available. Nucleotide sequence. Chlamydomonas reinhardtii. Saccharomyces cerevisiae. Molecular parasitology. Translocation (Genetics) Transposons.
83	Co-operative recombination mechanisms promoting gene clustering and lateral transfer of antibacterial drug resistance Kamali-Moghaddam, Masood January 2001 (has links) <p>Transposons of the Mu superfamily are widespread and have been shown to play an important role in the dissemination of antibiotic resistance among microorganisms. One of these elements, Tn<i>5090</i>/Tn<i>402</i> is the basal vehicle of the type 1 integrons in which mobile resistance gene cassettes are inserted to form clusters and operons. The transposon was shown to preferentially target recombination sites of the serine family of recombinases that occur in many plasmids and transposons. Mutation analysis revealed that DNA-binding of the targeting factor, a serine recombinase, is essential for efficient transposition, while the recombination activity is not required. Truncated elements were frequently observed and in one instance borne on a composite transposon flanked by IS<i>6100</i>. This new transposon, Tn<i>5089</i>, has allowed the translocation of the integron to small mobilizable IncQ-plasmids that lack the targeting factor and thus are incompetent for insertion of Tn<i>5090</i>/Tn<i>402</i>. Another small replicon, by contrast targeting-positive, was completely sequenced.</p><p>The transposon Tn<i>5090</i>/Tn<i>402 </i>carries arrayed transposase-binding sites at the ends, which are supposed to arrange the transposase TniA in the appropriate geometry in a recombinationally active complex with DNA. Footprinting showed that transposase, TniA, binds to four 19 bp repeats on one end and to two 19 bp repeats on the other end.</p><p>Site-specific resolution of Tn<i>5090</i>/Tn<i>402</i> co-integrates<i> </i>was analysed in an <i>in vitro </i>system. The<i> res</i> site was found to be composed of three unusually organized subsites and expression of TniC was shown to be autoregulated by TniC acting as repressor due to an overlap of the <i>res</i> site with the promoter. </p><p>The data presented show several aspects of cooperation between transposition and site-specific recombination. This cooperation has enriched genes and combinations of genes that mediate resistance to antibiotic drugs and promotes lateral transfer of these genes. The organization of sites and subsites in the DNA is a subtle genetic code for the formation of the molecule complexes controlling these genetic events. </p> Pharmaceutical biosciences Tn5090/Tn402 Mu-like transposons serine recombinases res site integrons Farmaceutisk biovetenskap Biopharmacy Biofarmaci
84	Co-operative recombination mechanisms promoting gene clustering and lateral transfer of antibacterial drug resistance Kamali-Moghaddam, Masood January 2001 (has links) Transposons of the Mu superfamily are widespread and have been shown to play an important role in the dissemination of antibiotic resistance among microorganisms. One of these elements, Tn5090/Tn402 is the basal vehicle of the type 1 integrons in which mobile resistance gene cassettes are inserted to form clusters and operons. The transposon was shown to preferentially target recombination sites of the serine family of recombinases that occur in many plasmids and transposons. Mutation analysis revealed that DNA-binding of the targeting factor, a serine recombinase, is essential for efficient transposition, while the recombination activity is not required. Truncated elements were frequently observed and in one instance borne on a composite transposon flanked by IS6100. This new transposon, Tn5089, has allowed the translocation of the integron to small mobilizable IncQ-plasmids that lack the targeting factor and thus are incompetent for insertion of Tn5090/Tn402. Another small replicon, by contrast targeting-positive, was completely sequenced. The transposon Tn5090/Tn402 carries arrayed transposase-binding sites at the ends, which are supposed to arrange the transposase TniA in the appropriate geometry in a recombinationally active complex with DNA. Footprinting showed that transposase, TniA, binds to four 19 bp repeats on one end and to two 19 bp repeats on the other end. Site-specific resolution of Tn5090/Tn402 co-integrates was analysed in an in vitro system. The res site was found to be composed of three unusually organized subsites and expression of TniC was shown to be autoregulated by TniC acting as repressor due to an overlap of the res site with the promoter. The data presented show several aspects of cooperation between transposition and site-specific recombination. This cooperation has enriched genes and combinations of genes that mediate resistance to antibiotic drugs and promotes lateral transfer of these genes. The organization of sites and subsites in the DNA is a subtle genetic code for the formation of the molecule complexes controlling these genetic events. Pharmaceutical biosciences Tn5090/Tn402 Mu-like transposons serine recombinases res site integrons Farmaceutisk biovetenskap Biopharmacy Biofarmaci
85	Epigenetic regulation of the human genome by transposable elements Huda, Ahsan 07 July 2010 (has links) Nearly one half of the human genome is composed of transposable elements (TEs). Once dismissed as 'selfish' or 'junk' DNA, TEs have also been implicated in a numerous functions that serve the needs of their host genome. I have evaluated the role of TEs in mediating the epigenetic mechanisms that serve to regulate human gene expression. These findings can be broadly divided into two major mechanisms by which TEs affect human gene expression; by modulating nucleosome binding in the promoter regions and by recruiting epigenetic histone modifications that enable them to serve as promoters and enhancers. Thus. the studies encompassed in this thesis elucidate the contributions of TEs in epigenetically regulating human gene expression on a global as well as local scale. Transposable elements Histone modifications Nucleosome binding Gene expression Promoters Enhancers Genetic regulation Transposons Genomes Histones
86	Régulations génétique et moléculaire par ARN interférence chez Trypanosoma brucei Durand-Dubief, Mickaël 07 March 2005 (has links) (PDF) L'ARN interférence (ARNi) est un phénomène découvert en 1998 par lequel la présence d'ARN double brin au sein d'une cellule entraîne la dégradation d'ARN de séquence homologue. L'ARNi est effectué par un complexe ribonucléoprotéique contenant des petits ARN double brin et au moins une protéine de la famille Argonaute. Cette thèse a été consacrée à l'étude de l'ARNi chez le protozoaire Trypanosoma brucei. Nous avons d'abord défini les conditions d'utilisation de l'ARNi au niveau de la spécificité et de l'efficacité, paramètres qui ont servi à l'élaboration d'un logiciel permettant la sélection de l'ARN double brin pour les études fonctionnelles. Ensuite, nous avons recherché plusieurs gènes candidats codant pour des protéines participant à l'ARNi. Le meilleur d'entre eux, TbAGO1, appartient à la famille Argonaute et se caractérise par la présence d'un domaine supplémentaire, capable de lier les ARN. Il est essentiel pour l'ARNi chez le trypanosome. Sa délétion produit des défauts significatifs lors de la mitose et nous avons établi que l'ARNi contribue à la formation du fuseau mitotique et à la ségrégation des chromosomes. Un second phénotype observé en l'absence d'ARNi est la surexpression des ARN de deux types de rétroposons (rétrotransposons sans LTR), sans toutefois augmentation de leur activité de rétroposition. Les deux phénotypes sont indépendants l'un de l'autre. Nous avons ensuite démontré que la présence d'ARN double brin entraîne la destruction d'ARN cible de séquence homologue dans le cytoplasme mais peut aussi conduire à une extinction de la transcription du gène correspondant. Ce type de mécanisme pourrait non seulement contrôler l'expression des ARN des rétroposons, mais aussi celle des gènes dans lesquels ils sont insérés. ARN interference Argonaute ARNdb transposons mitose chromosome Trypanosoma brucei
87	Sex, parasitic DNA and adaptation in experimental populations of Saccharomyces cerevisiae and Chlamydomonas reinhardtii Zeyl, Clifford. January 1996 (has links) The widespread occurrence among eukaryotes of sex and of mobile DNA sequences requires an evolutionary explanation, since both appear to reduce individual fitness. Both phenomena have been hypothesized to provide fitness advantages to populations, but such explanations require rather than explain the initial establishment of mobile elements and genes for sex. Genes encoding sexuality may invade asexual populations as molecular parasites, whose success then allows mobile elements to spread as parasites of sexual genomes. The prediction that mobile elements can invade only sexual populations was tested using isogenic sexual and asexual populations of Saccharomyces cerevisiae and the retrotransposon Ty3. Active Ty3 elements more consistently invaded sexual than asexual populations. In subsequent experiments involving selection on media containing ethanol as a carbon source or $ beta$-glycerophosphate as a limiting phosphorus source, transposition by galactose-induced Ty3 elements produced none of the mutations involved in adaptation to these media, and conferred no adaptive advantage among competing populations. The mean copy numbers of two mobile elements were unchanged by long-term sexual or asexual propagation of Chlamydomonas reinhardtii populations, because transposition by these elements occurred very rarely or had no effect on fitness. Sexual and asexual S. cerevisiae populations did not differ in their adaptation to galactose media, but sexual populations maintained on glucose had higher growth rates on both media than did asexual populations maintained on glucose, implying that selection against deleterious mutations was more effective in sexual populations. Translocation (Genetics) Transposons. Molecular parasitology. Nucleotide sequence. Saccharomyces cerevisiae. Chlamydomonas reinhardtii.
88	Bioinformatics analysis of predicted S/MARS and associated stowaway transposon locations in the Gramineae / Bioinformatics analysis of predicted stowaway/matrix attachment regions and associated stowaway transposon locations in the Gramineae DeLongchamp, Sarah R. January 2007 (has links) Stowaway/matrix attachment regions (S/MARS) are sequences of DNA that anchor chromatin to the nuclear matrix, function in gene expression, chromatin organization, and conformation. Current identification tools in Eukaryotes rely on a small population of known S/MARs for search criterion. This study presents bioinformatics prediction of S/MARs across various genomes using the program Basic Local Alignment Search Tool (BLAST), providing an opportunity to identify putative S/MARs for further characterization and a novel application of BLAST for S/MAR identification. Two wheat S/MARs were used to identify homologous sequences, within the true grasses, or Gramineae. The evidence suggests that S/MARs are prolific in Gramineae species, specifically in the related subspecies Triticeae. In addition, stowaway-like sequences associated with predicted S/MARs within Gramineae species are present, found to be in association with predicted S/MARs in Gramineae, and proposed to be the product of an unknown duplication mechanism and bear no significant association with S/MARs. / Department of Biology Nuclear matrix -- Data processing. Transposons -- Data processing. Grasses -- Genome mapping.
89	Origin and evolution of eukaryotic gene sequences derived from transposable elements Piriyapongsa, Jittima 09 June 2008 (has links) My dissertation encompasses five different studies that are linked by a common theme the investigation of transposable element (TE) contributions to eukaryotic gene sequences. A detailed analysis of exonization events of LTR elements in the human genome shows the preference towards the fixation of LTR elements in gene untranslated regions, which supports the existing concept of a major role of LTR elements as a natural source of regulatory sequences. The ability of different classes of sequence similarity search methods to detect TE-derived sequences was evaluated. In general, the different search methods are found to be complementary, and combined search approaches are needed to systematically check any data set for all potential TE-associated coding sequences. On average, TE-derived exon sequences have low protein coding potential. In particular, non-coding TEs, are frequently exonized but unlikely to encode protein sequences. Many of these non-coding exonized TEs may be actually involved in gene regulation via the formation of double stranded RNA complexes with complementary TE-derived exons. The investigation of the relationship between human miRNAs and TEs shows that 55 experimentally verified human miRNA genes (~12%) originated from TEs. Overall, TE-derived miRNA genes are less conserved than non TE-derived miRNAs. The potential regulatory and functional significance of TE-derived miRNAs was explored. An ab initio prediction algorithm I developed was used to discover putative cases of novel TE-derived miRNA genes. A miRNA gene family, hsa-mir-548, was found to be derived from Made1 family of MITEs. The palindromic structure of the Made1 elements, and MITEs in general, points to a specific mechanism by which these sequences can be recognized and processed by the miRNA biogenesis pathway. MITEs may also represent an evolutionary link between siRNAs and miRNAs. An original model for a siRNA-to-miRNA evolutionary transition mediated by DNA-type TEs is proposed. This model is supported by the presence of evolutionary intermediate TE sequences that encode both siRNAs and miRNAs in the Arabidopsis and rice genomes. The siRNA-to-miRNA evolutionary transition is representative of a number of other regulatory mechanisms that evolved to silence TEs and were later co-opted to serve as regulators of host gene expression. Transposable element Evolution Gene Exonization MITE MiRNA SiRNA Transposons Mobile genetic elements Amino acid sequence
90	Comparative and functional genomic analysis of human and chimpanzee retrotransposon sequences Polavarapu, Nalini 25 June 2007 (has links) Transposable elements (TEs) are mobile DNA sequences that can move from one location to another in the genome. These elements encode regulatory features including transcriptional promotion and termination signals facilitating the production of new transcripts (or elements). The elements thus produced are inserted back into the genome. Due to their insertional capacity and encoded regulatory features, TEs have, in recent years, been recognized as significant contributors to regulatory variation both within and between species. In comparing the human and chimpanzee genomes it has been hypothesized that the genetic basis of the phenotypic differences that distinguish them may be the result of regulatory differences existing between the two species. Since TEs inserted in proximity to genes can significantly alter gene expression patterns, this research aims at exploring the influence of TE sequences and retrotransposons in particular in the evolution of gene regulation between humans and chimpanzees. A first systematic search of one particular class of retrotransposons - endogenous retroviruses (ERVs) was carried out in the chimpanzee genome. Forty two families of ERVs were identified in the chimpanzee genome including the discovery of 9 previously unknown families in humans. The vast majority of these families were found to have orthologs in the human genome except for two (CERV 1/PTERV1 and CERV 2) families. The two CERV families without orthologs in the human genome display a patchy distribution among primates. Nine families of chimpanzee ERVs have been transpositionally active since the human-chimpanzee divergence, while only two families have been active in the human lineage. The genomic differences [INDEL variation (80-12,000 bp in length)] between humans and chimpanzees are laid out. The INDEL variation located in or near genes is categorized in detail and is correlated with differences in gene expression patterns in a variety of organs and tissues. Results indicate that the majority of the INDEL variation between the two species is associated with retrotransposon sequences and that this variation is significantly correlated with differences in gene expression most notably in brain and testes. These findings are consistent with the hypothesis that retrotransposon mediated regulatory variation may have been a significant factor in human/chimpanzee evolution. Gene expression Indel variation Chimpanzee Retrotransposon Human Transposons Genomes Genetic regulation Physiology, Comparative Chimpanzees Human beings

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