Global ETD Search

141	Molecular mechanisms underlying heterochromatin formation in the mouse embryo / Mécanismes moléculaires responsables de la formation de l'hétérochromatine chez l'embryon des mammifères Jachowicz, Joanna Weronika 17 December 2015 (has links) Afin d'étudier la formation de l'hétérochromatine dans l’embryon préimplantatoire de souris, je me suis concentrée sur deux régions génétiques différentes - répétitions péricentriques et L1 éléments transposables - dans le but notamment de découvrir les mécanismes qui conduisent à la répression et le rôle distinct qu’ils peuvent jouer pendant le processus de développement et la division cellulaire. Mes expériences montrent que l’organisation spatiale spécifique des domaines péricentriques est essentielle pour leur répression ainsi que pour leur organisation correcte. De plus, mes résultats suggèrent que les défauts d’organisation de l’hétérochromatine conduisent à des défauts de division cellulaire et de prolifération. La seconde partie de ma thèse montre que la réglementation stricte de L1 éléments transposables est nécessaire pour le développement préimplantatoire d'embryons de souris. En outre, représente la première tentative pour élucider la biologie des éléments L1 dans l’embryon précoce de souris par l’utilisation de modificateurs de transcription ciblés spécifiquement. / To study the formation of heterochromatin in mouse preimplantation embryo, I focused on two different genetic regions – pericentric repeats and L1 transposable elements - in order to investigate the mechanisms that lead to their repression and the distinct role that these regions can play during the process of development and cell division. My experiments show that the specific spatial organization of pericentric domains is essential for their repression and for their correct organization. Moreover, my findings suggest that defects in organization of heterochromatin lead to improper cell division and proliferation. The second part of my thesis shows that the tight regulation of L1 transposable elements is required for the preimplantation development of mouse embryos. Additionally, it is the first attempt to elucidate the biology of L1 elements in the early mouse embryo through the use of targeted transcription modifiers. Heterochromatin Répétitions péricentriques L1 retrotransposon Epigenetics Pluripotence Embryon de souris Heterochromatin Pericentric repeats L1 retrotransposones Epigenetics Pluripotency Mouse preimplantation embryos 571.86 572.8
142	Contraction de répétitions de trinucléotides par induction ciblée d'une cassure double brin / Trinucleotide repeats contraction by double-strand break induction Mosbach, Valentine 18 April 2017 (has links) Les répétitions de trinucléotides sont des séquences répétées en tandem pouvant subir, chez l'homme, de larges expansions à l'origine de nombreuses maladies génétiques. La dystrophie myotonique de type 1 (DM1) est due à l'expansion d'une répétition CTG en 3'UTR du gène DMPK. Les mécanismes d'instabilités des répétitions, peu connus, reposeraient sur leur capacité à former des structures secondaires constituant un obstacle aux mécanismes impliquant une synthèse d'ADN. Nous avons montré qu'une TALEN induisant une cassure double brin dans les répétitions CTG à l'origine de la DM1 insérées chez la levure Saccharomyces cerevisiae permettait de manière efficace et spécifique d'aboutir après réparation à leur contraction. Le mécanisme de réparation est dépendant uniquement de deux gènes, RAD50 et RAD52, suggérant la formation de structures aux extrémités de la DSB devant être retirées pour initier la réparation, suivis d'une réaction de SSA entre les répétitions aboutissant à leur contraction. L'efficacité et spécificité d'un système CRISPR-Cas9 à contracter ces répétitions chez la levure ont été comparées à la TALEN. L'induction de CRISPR-Cas9 n'aboutit pas à la contraction des répétitions mais à des réarrangements chromosomiques suggérant un manque de spécificité et un mécanisme de réparation différent de celui de la TALEN. Enfin, nous avons étudié si ces nucléases peuvent contracter ces répétitions CTG à des tailles non pathologiques dans des cellules de mammifères. L'induction de la TALEN dans des cellules de souris transgéniques DM1, puis dans des fibroblastes humains de patients DM1 montre des résultats préliminaires encourageant de contraction des répétitions. / Trinucleotides repeats are a specific class of microsatellites whose large expansions are responsible for many human neurological disorders. Myotonic dystrophy type 1 (DM1) is due to an expansion of CTG repeats in the 3’UTR of DMPK gene, which can reach thousands of repeats. Molecular mechanisms leading to these large expansions are poorly understood but in vitro studies have shown the capacity of these repeats to form secondary structures, which probably interfere with mechanisms involving DNA synthesis. We shown that a TALEN used to induce double-strand break (DSB) in DM1 CTG repeats integrated in the yeast Saccharomyces cerevisiae is specific and leads to highly efficient repeat contractions after repair. Mechanism involved in TALEN-induced DSB only depends of RAD50 and RAD52 genes, suggesting the formation of secondary structures at DSB ends that need to be removed for repair initiation, followed by an intramolecular recombinaison repair such as SSA between repeats leading to their contraction. We compared the efficiency and specificity of a CRISPR-Cas9 and the TALEN to contract CTG repeats in yeast. Surprisingly, CRISPR-Cas9 induction do not lead to repeat contraction but to chromosomal rearrangement, suggesting a lack of specificity and a different repair mechanism than with the TALEN. At last, we studied whether these nucleases could contract CTG repeats to a non-pathological length in mammalian cells. Finally, TALEN induction in DM1 transgenic mice cells, and in DM1 human fibroblasts show promising repeat contractions. Répétitions de trinucléotides Cassure double brin Talen CRISPR-Cas9 Dystrophie myotonique de type 1 Réparation de l'ADN Trinucleotide repeats Double-strand break repair Myotonic distrophy type 1 576.5
143	Development and validation of Non-CODIS miniSTR genotyping systems suitable for forensic case work in South Africa Abrahams, Zainonesa January 2010 (has links) Magister Scientiae - MSc / The objective of this study was to develop and validate a six Non-CODIS miniSTR genotyping system and to determine its suitability for forensic casework in South Africa. In Non-CODIS miniSTR genotyping systems, smaller PCR products are amplified and the primers are positioned as close as possible to the repeat region. For this reason, these systems can be valuable in a variety of scenarios including complex paternity cases, missing persons work, and mass fatality disasters. / South Africa Forensics Mini short tandem repeats (miniSTRs) Loci Non-CODIS (NC) Polymerase chain reaction (PCR) DNA sequencing Degraded DNA Internal validation Population Studies Allele frequencies Forensic parameters
144	Caracterização funcional da proteína LRR17 em Leishmania (Leishmania) major. / Functional characterization of the Leishmania (Leishmania) major LRR17 protein. Sandra Patricia Kalil Perdomo 15 December 2010 (has links) As proteínas que contem domínios ricos em leucina (LRR) mediam interações macromoleculares que estão envolvidas em muitos processos biológicos como infecção bacteriana em células hospedeiras e respostas imunológicas de plantas. Estudos anteriores em nosso laboratório identificaram um gene que codifica uma proteína contendo 6 LRRs (LaLRR17) em L. (L.) amazonensis. O LaLRR17 é um gene com expressão estágio regulada sendo abundantemente expresso na fase amastigota. Seqüências homólogas ao gene LaLRR17 foram encontradas em todas as espécies de Leishmania analisadas. Esse trabalho tem como objetivo a caracterização da proteína homóloga em L. (L.) major (LmLRR17). Anticorpos obtidos contra seqüências conservadas das proteínas LaLRR17 e LmLRR17 permitiram o estudo da abundância protéica em diferentes estágios do parasita. Curiosamente, a proteína LmLRR17 foi encontrada em maior abundância em promastigotas procíclicos em vez de amastigotas. Linhagens hiperexpressoras da proteína LmLRR17 ou expressoras da proteína LaLRR17 em fusão com o epitopo viral myc foram obtidas. As proteínas quiméricas foram expressas seguindo o mesmo padrão observado na cepa selvagem. O fenótipo desses mutantes foi avaliado mediante infecções de macrófagos in vitro. A hiperexpressão da proteína LmLRR17 em L. (L.) major não alterou o fenótipo da infecção in vitro. Por outro lado, a expressão da proteína heteróloga, LaLRR17, em promastigotas de L. (L.) major levou a incremento na virulência com maior número de células infectadas e de parasitas por célula. Esses resultados indicam que a expressão da proteína LmLRR17 em L. (L.) major é fortemente regulada. Esse trabalho também mostra que a expressão da proteína LaLRR17 em L. (L.) major leva a um aumento na infectividade. / Proteins containing leucine rich repeats (LRR) are known to be involved in macromolecular interactions in many processes such as signal transduction, cell-adhesion, RNA processing, apoptosis, disease resistance and immune response. A previous study in our laboratory identified a L. (L.) amazonensis gene encoding a protein containing 6 LRRs (LaLRR17). LaLRR17 is a stage-regulated gene expressed with increased abundance in the amastigote stage. Highly conserved homologues of LaLRR17 were found in all Leishmania species analyzed. Therefore, the aim of this study was to characterize the homologous protein of L. major (LmLRR17). Antibodies raised against peptide sequences common to LaLRR17 and LmLRR17 allowed the study of the steady-state protein abundance. Interestingly, LmLRR17 protein was found to be up-regulated in procyclic promastigotes, instead of amastigotes. Mutants of L. (L.) major overexpressing a myc-tagged version of LmLRR17 or of LaLRR17 protein were obtained. In these parasites, the chimeric proteins were expressed following the same pattern of expression observed in the wild type parasites. The phenotype of these mutants was assessed in vitro through macrophage infections. Overexpression of LmLRR17 protein in L. (L.) major resulted in an unaltered phenotype. On the other hand, overexpression of LaLRR17 in L. (L.) major induced an increase in virulence with a higher number of infected cells and intracellular parasites. These results indicate that the expression of LmLRR17 protein in L. major is tightly regulated and the expression of the heterologous LaLRR17 protein increased infectivity in vitro. Leishmania Expressão gênica Fatores de virulência Fenótipos Infecções por mastigoforos Repetições ricas em leucina Transfecção Leishmania Gene expression Leucine rich repeats Mastigophora Infections Phenotypes Transfection Virulence factors
145	Rekonstrukce repetitivních elementů DNA / Reconstruction of Repetitive Elements in DNA Hypský, Jan January 2018 (has links) Eukaryotic genomes contain a large number of repetitive structures. Their detection and assembly today are the main challenges of bioinformatics. This work includes a classification of repetitive DNA and represents an implementation of a novel de novo assembler focusing on searching and constructing LTR retrotransposons and satellite DNA. Assembler accepts on his input short reads (single or pair-end), obtained from next-generation sequencing machines (NGS). This assembler is based on Overlap Layout Consensus approach.
146	Predikce transpozonů v DNA / Prediction of Transposons in DNA Černohub, Jan January 2014 (has links) Cílem práce je seznámení se s problematikou uchovávání informace v DNA, provést rešerši na téma transpozony, bioinformatické nástroje a algoritmy, které jsou používány k jejich detekci v nasekvenovaných genomech a vytvořit tak stručný úvod do obsáhle problematiky, včetně jejího zasazení do kontextu současně probíhajícího výzkumu v dané oblasti. Na základě přehledu stávajících algoritmů a nástrojů pro detekci transpozonů je navržen a implementován nástroj pro hledání tzv. LTR transpozonů.
147	Comparison of multi-gene integration strategies in CRISPR-based transformation of Saccharomyces cerevisiae Jacob, Odwa January 2021 (has links) >Magister Scientiae - MSc / Saccharomyces cerevisiae is an important host in industrial biotechnology. This yeast is the host of choice for the first and second-generation biofuels for ethanol production. Genome modification in S. cerevisiae has been extremely successful largely due to this yeast’s highly efficient homology-directed DNA repair machinery. The advent of CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) genome editing technology has made multi-gene editing in yeast more accessible. In this study, we aimed at targeting the Cas9 to multiple genomic positions for integrating multiple genes at different sites. We have developed two CRISPR-Cas9 systems, based on published one- and two-plasmid systems, for application in S. cerevisiae strains. In this study, these CRISPR-Cas9 systems were used to transform fungal heterologous genes into yeast using the electroporation transformation method. We first utilized the CRISPR systems for targeting the T.r.eg2 gene to single locus chromosomal sites for single copy integration. Subsequently, we then targeted the same gene to repeated sequences in the genome, namely the delta sites, for multi-copy integration. The procedure was repeated with a different gene, T.e.cbh1, integrated into the same sites to ascertain reporter gene specific effects. High integration efficiency was achieved, since all the strains successfully integrated the genes. However, we discovered significant differences in enzyme activities between the two genes when targeted to different loci, as well as varying copy numbers as determined by qPCR. The T.e.cbh1 gene was highly expressed by yeast transformants targeted at the repeated delta sequences used for multi-copy integration, reaching maximum levels of 248 mU/gDCW. The T.r.eg2 gene was highly expressed in yeast transformants targeted to the single locus site on chromosome 12, reaching a maximum of 160U/gDCW, though it was shown that off-target integration likely occurred. We then used the information from these observations to construct a CBP yeast strain containing three cellulase genes: T.r.eg2, T.e.cbh1, and S.f.BGL1. Significant differences in enzyme activities were observed between the three genes, and it was shown that the S.f.BGL1 gene was poorly expressed by the CBP yeast strain, whereas the T.r.eg2 gene was highly expressed. Notably, due to the fact that marker containing plasmids could be cured from these strains, many additional genetic changes can still be made. Overall, our two CRISPR-Cas9 systems were efficient at engineering strains that produce recombinant proteins and can be used in future studies for a variety of applications, including metabolic engineering in S. cerevisiae Saccharomyces cerevisiae Biotechnology Pharmaceutical Lignocellulosic Cellulolytic Biomass Consolidated bioprocess (CBP)
148	Instability at Trinucleotide Repeat DNAs Gadgil, Rujuta Yashodhan 30 August 2016 (has links) No description available. Biochemistry Molecular Biology Tri-nucleotide repeats non-B DNA structures inherited neurodegenerative replication fork stalling single double strand DNA breaks color marker gene assay detect DNA breaks
149	Male-mediated developmental toxicity Anderson, Diana, Schmid, Thomas E., Baumgartner, Adolf 10 October 2013 (has links) No / Male-mediated developmental toxicity has been of concern for many years. The public became aware of male-mediated developmental toxicity in the early 1990s when it was reported that men working at Sellafield might be causing leukemia in their children. Human and animal studies have contributed to our current understanding of male-mediated effects. Animal studies in the 1980s and 1990s suggested that genetic damage after radiation and chemical exposure might be transmitted to offspring. With the increasing understanding that there is histone retention and modification, protamine incorporation into the chromatin and DNA methylation in mature sperm and that spermatozoal RNA transcripts can play important roles in the epigenetic state of sperm, heritable studies began to be viewed differently. Recent reports using molecular approaches have demonstrated that DNA damage can be transmitted to babies from smoking fathers, and expanded simple tandem repeats minisatellite mutations were found in the germline of fathers who were exposed to radiation from the Chernobyl nuclear power plant disaster. In epidemiological studies, it is possible to clarify whether damage is transmitted to the sons after exposure of the fathers. Paternally transmitted damage to the offspring is now recognized as a complex issue with genetic as well as epigenetic components. Animals Chromatin Chromosome disorders DNA DNA methylation Epigenomics Fathers Histones Humans Male Mice Minisatellite repeats Mosaicism Neoplasms Paternal exposure Rats Smoking Spermatozoa
150	Polyhistidine repeats and Dyrk 1a: from the localization on the function Salichs Fradera, Eulàlia 15 December 2008 (has links) PolyHistidine repeats and DYRK1A: from the localization to the functionEl principal objectiu d'aquesta tesi ha estat el d'esbrinar noves funcions de la proteína quinasa DYRK1A en el nucli cel.lular. Donat que el domini de repetició d'histidines de DYRK1A dirigeix la proteína al compartiment d'speckles nuclears, aquesta propietat ha estat utilitzada per adreçar aquesta pregunta. Els resultats obtinguts en aquesta tesi han permès proposar els homopolímers d'histidina com una nova i general senyal de localització a speckles nuclears. Proteïnes amb segments de polihistidines, la majoria d'elles factors de transcripció, mostren un comportament intranuclear dinàmic, compatible amb un model en el quèl diferents dominis d'interacció competeixen entre ells pel reclutament de la proteína a diferents subcompartiments nuclears. El mecanisme molecular que media l'acumulació a speckles de les proteïnes amb polihistines s'ha estudiat utilitzant DYRK1A com a model. Els resultats obtinguts exclouen la unió a l'RNA com a mecanisme de reclutament i concloure que, aquest, ocorre mitjançant la interacció amb proteïnes residents. S'han identificat dues noves proteïnes interactores per a DYRK1A, l'RNA polimerasa II i el factor de transcripció Brn-3b. La fosforilació de DYRK1A sobre el domini C-terminal o CTD de l'RNA polimerasa II suggereix una funció directa de la quinasa en el procés de transcripció o del seu acoblament al processament d'RNAs missatgers. La fosforilació de DYRK1A sobre el domini d'activació de Brn-3b sembla regular positivament l'activitat transcripcional d'aquest factor. Aquests resultats indiquen una funció activa de DYRK1A en la regulació de la transcripció gènica, tant directament sobre la maquinària transcripcional com indirectament, modulant l'activitat de factors de transcripció. PolyHistidine repeats and DYRK1A: from the localization to the functionThe main objective of this thesis work has been to identify new roles for the protein kinase DYRK1A in the cell nucleus. Given that a histidine repeat in DYRK1A targets the protein to the nuclear speckle compartment, this property has been used as a tool to approach the question. The results obtained in this thesis work have allowed proposing homopolymeric histidine runs as a novel and general nuclear speckle-directing signal. Proteins with polyHistidine segments, mostly transcription factors, present a dynamic intranuclear behaviour compatible with a model in which distinct interacting domains compete for recruiting elements within the nucleus. The molecular mechanisms that mediate speckle accumulation have been studied in DYRK1A as a model system. The results allow excluding RNA binding as the recruiting mechanism and concluding that targeting is mediated by interaction with speckle-resident proteins. Two novel DYRK1A interactors have been identified during the study, the RNA polymerase II and the transcription factor Brn-3b. DYRK1A phosphorylation of the C-terminal domain or CTD of the RNA polymerase II suggests a direct role of DYRK1A on transcription or coupling of transcription with RNA processing. DYRK1A phosphorylation of Brn-3b within its activation domain seems to positively regulate Brn-3b transcriptional activity. These results confirm an active role for DYRK1A in gene transcription regulation both direct on the transcriptional machinery and indirect by modulating the activity of transcription factors. polyHistidine repeat-containing proteins polyHistidine repeats nuclear speckles nuclear dynamics DYRK1A Brn-3b speckles nuclears SFC (compartiment de factors d'splicing) RNA polimerasa II repeticions d'histidines repeticions d'aminoacids unics proteïnes amb repeticions d'histidines proteina quinasa factor de transcripcio DYRK1A dinamica intranuclear Brn-3b protein kinase RNA polymerase II SFC (splicing factor compartment) single amino acid repeats transcription factor 57 61

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