Global ETD Search

91	Identification and characterization of ADNP as a novel heterochromatin component / Identifizierung und Charakterisierung von ADNP als neuer Faktor im Heterochromatin Mosch, Kerstin 11 August 2010 (has links) No description available. 570 Biowissenschaften Biologie Chromatin Heterochromatin Major-Satellite-Repeats H3K9me3 ADNP Chromatin Heterochromatin Major-Satellite-Repeats H3K9me3 ADNP 35.70 WHC 300: Zellkern {Cytologie}
92	Étude de l'instabilité trinucléotidique lors de la spermiogenèse / Study of trinucleotidic instability during spermiogenesis Simard, Olivier January 2017 (has links) Les maladies à expansion de triplets nucléotidiques situés dans la région codante, telles que la maladie de Huntington, sont des maladies où les gènes en questions possèdent un nombre de répétitions trinucléotidiques anormalement élevé et inversement corrélé avec l'âge d‟apparition des symptômes. Plusieurs de ces maladies démontrent une anticipation paternelle, où un ajout de répétitions trinucléotidiques a lieu pendant la spermiogenèse, mais les étapes et les mécanismes impliqués sont encore mal compris. Or, la spermiogenèse est caractérisée par un remodelage drastique de la chromatine, où les histones sont ultimement remplacées par les protamines afin de compacter et protéger davantage le matériel génétique. Cette transition implique aussi un changement topologique majeur qui mène à une accumulation de superenroulement négatif qui est éliminé par la topoisomérase 2[beta]. Pour identifier les étapes précises où l'extension trinucléotidique a lieu, j'ai développé une stratégie de séparation des spermatides en utilisant la cytométrie en flux, ce qui m'a permis d'obtenir quatre populations, soit les spermatides aux étapes 1 à 9, 10 à 12, 13-14 et 15-16. J'ai appliqué cette stratégie sur un modèle de souris transgéniques pour la maladie de Huntington, ce qui a permis de démontrer par PCR que l'extension trinucléotidique des répétitions CAG a lieu à la fin du remodelage de la chromatine, soit à l'étape 14. Afin d‟élucider le mécanisme d‟extension trinucléotidique, j'ai utilisé une stratégie in vitro, basée sur l'incubation d‟extraits nucléaires actifs de spermatides avec un plasmide contenant des répétitions CAG. Cette stratégie a démontré que le superenroulement négatif libre, tel que retrouvé pendant le remodelage de la chromatine, est capable d'induire des structures secondaires dans les répétitions CAG, ce qui entraîne une cascade d‟événements menant à l'extension trinucléotidique. J'ai validé ce processus en inhibant aussi les topoisomérases de type 2 qui sont responsables d'éliminer le superenroulement. Finalement, j‟ai démontré que la protamination de l‟ADN, telle qu'observée dans les spermatides, accentue l'accumulation de stress torsionnel aux répétitions CAG, ce qui favorise leur extension. Mes travaux sur le stress torsionnel lors de la protamination suggèrent une nouvelle source potentielle d'instabilité trinucléotidique, nécessitant une caractérisation additionnelle. Cette source d'instabilité, qui est spécifique au mâle, jouerait un rôle majeur dans l'anticipation paternelle des maladies trinucléotiditiques. / Abstract : Trinucleotidic diseases, such as the Huntington disease, are genetic diseases characterized by abnormally long trinucleotidic repeats within a specific gene, which are inversely correlated with the age of onset of symptoms when within exons. Many trinucleotidic diseases display paternal anticipation, where trinucleotidic repeats are added during spermiogenesis, without any details on the mechanism or the steps involved. Interestingly, spermiogenesis is characterized by a drastic chromatin remodeling, where histones are ultimately replaced by protamines in order to achieve greater compaction and protection of DNA. This transition also involves major topological changes, where accumulation of negative supercoils are eliminated by the topoisomerase 2[beta]. In order to identify the specific steps where trinucleotidic extension occurs, I have developed a strategy to separate spermatids from mice, using flow cytrometry. This allowed me to purify four distinct spermatids population, consisting of steps 1-9, 10-12, 13-14 and 15-16 spermatids. The sorting strategy was used on a transgenic mouse model of the Huntington disease, which allowed me to determine, using PCR, that CAG extension occurs at the end of chromatin remodeling, more specifically at step 14. The mechanism of extension was investigated using an in vitro approach, based on the incubation of active nuclear extracts from spermatids with a plasmid containing CAG repeats. Using this strategy, I showed that free negative supercoils, as observed during chromatin remodeling, may lead to secondary structures, and more specifically hairpins in trinucleotidic repeats, which ultimately result in trinucleotidic extension. This hypothesis was validated by inhibiting enzymes such as type 2 topoisomerases, since they are responsible for negative supercoils removal. Moreover, I showed that DNA protamination, as observed in spermatids, may increase torsional stress at CAG repeats and leads to expansion. In conclusion, this work suggest that torsional stress induced by protamination of DNA could be a new potential source of trinucleotidic instability. Moreover, this male specific source of trinucleotidic instability could play a major role in paternal anticipation of trinucleotidic diseases. Maladie de Huntington Répétitions trinucléotidiques Spermiogenèse Remodelage de la chromatine Stress torsionnel Huntington disease Trinucleotidic repeats Spermiogenesis Chromatin remodeling Torsional stress
93	The influence of household fluidity on the health and well-being of the child Fleetwood, Stella Angela January 2013 (has links) Submitted in fulfilment of the requirements for the degree of MASTER OF SCIENCE Faculty of Health Sciences, University of the Witwatersrand Johannesburg, 2012 / Research indicates that there is a strong association between household composition and household stability, and child well-being. Black South African family life has historically been affected by the social, political and economic pressures of colonialism, the migrant labour system, and Apartheid policies. It has been shown that Black households have been in a constant state of flux as members move between rural and urban households, as well as, within urban environments. This situation of intense household fluidity and household compositional changes continues to persist. High rates of urbanisation, the fluid job market, and fast social change are all associated with high levels of mobility and household compositional change. Kin networks remain a significant informal safety net for households in order to absorb change. The movement of children between family members, or child fostering is an important mechanism for maintaining networks of support. Children are frequently moved between different households in urban areas so as to maximise their care and education. These changes could potentially influence their overall well-being and, in particular, their academic performance. household fluidity household structure family structure Johannesburg-Soweto birth to twenty adolescent grade repeats Residential mobility Child Development
94	Assemblage de répétitions de la séquence 601 dans le génome de Saccharomyces cerevisiae pour dicter l'espacement des nucléosomes in vivo / Repeats assembly of the 601 sequence into Saccharomyces cerevisiae's genome to dictate nucleosome spacing in vivo Lancrey, Astrid 18 May 2018 (has links) Le positionnement des nucléosomes le long des génomes eucaryotes est crucial étant donné qu’il affecte l’accessibilité de l’ADN à des protéines impliquées dans la transcription, la réplication, ou encore la réparation de l’ADN. Si il est aujourd’hui admis que les remodeleurs de chromatine ainsi que les préférences des nucléosomes pour certains motifs d’ADN constituent les deux principaux déterminants du positionnement des nucléosomes in vivo, leur importance relative fait encore l’objet de controverses. Dans le cadre de cette problématique nous avons développé une stratégie d’assemblage de répétitions de la séquence 601 positionnante de nucléosome directement dans le génome de Saccharomyces cerevisiae. Cette technique assistée par la technologie CRISPR/Cas9 et des oligonucléotides chevauchants s’est révélée très efficace et a permis d’assembler des répétitions sur une étendue d’environ 15 kilobases. Nous avons ainsi pu isoler trois souches se caractérisant par trois longueurs d’ADN de liaison de respectivement 20, 50 et 90 paires de bases séparant deux 601 consécutifs tout le long des répétitions. Ces longueurs d’ADN de liaison ont été choisies du fait de leur compatibilité avec les modèles de la fibre de 30 nm étudiés in vitro et parce qu’elles sont fréquemment observées chez les eucaryotes. Nous avons ensuite regardé si ces répétitions de la séquence 601 suffisent à dicter la succession des nucléosomes de S. cerevisiae selon le pas de chromatine attendu. Pour cela, nous avons eu recours à une approche de MNase-seq afin d’analyser les positions des dyades des nucléosomes dans les répétitions. Les résultats de ces analyses révèlent de façon intéressante l’incapacité de la séquence 601 à positionner le nucléosome dans ce contexte cellulaire et cela malgré l’étendue de la région de 601 répétés constituée. Nous avons également analysé le positionnement des nucléosomes chez ces trois mêmes souches suite à l’inactivation de Chd1, l’un des deux principaux architectes du paysage nucléosomal chez la levure, afin de s’affranchir de son potentiel effet sur le positionnement des nucléosomes dans la région 601. Nos résultats montrent que l’absence de Chd1 ne permet pas de rétablir un positionnement des nucléosomes sur les monomères de 601, suggérant que le 601 n’est pas positionnant in vivo ou que la région répétée est sous l’influence d’autres facteurs de remodelage. D’un point de vue méthodologique, notre technique de construction de répétitions in vivo permet d’envisager des approches simplifiées de biologie synthétique pour la construction de librairies de répétitions dans le génome de S. cerevisiae. / Nucleosome positioning along eukaryotic genomes is crucial as it influences DNA accessibility for DNA binding proteins involved in DNA replication, transcription and repair. It is now accepted that both nucleosome preferences for some DNA sequences and remodeling factors play an important role in nucleosome positioning in vivo. However their relative importance remains a matter of debate. To investigate the role played by DNA sequence in nucleosome positioning in a cellular context we developped a strategy to assemble tandem DNA repeats of a nucleosome positioning sequence directly into Saccharomyces cerevisiae’s genome. This method is assisted by CRISPR/Cas9 and overlapping oligonucleotides and it turned out to be very efficient as it allowed to synthetize about 15 kilobases of tandem DNA repeats inside a yeast chromosome. Using this apporoach we obtained three yeast strains differing by the DNA linker length separating two consecutive monomeres of the 601 nucleosome positioning sequence. We chose three lengths of linker (20, 50 and 90 pb) for two reasons. First, they are compatible with the formation of a 30 nm chromatin fiber in vitro, and second, nucleosome repeat length of 167, 197 and 237 pb are found in eukaryotic genomes. We then verified if nucleosomes are effectively positioned according to the theoretic DNA linker lengths we designed in the “601” repeated region. To that goal we performed MNase-seq analysis to deduce nucleosomes dyads positions in the repeats. Interestingly our results show that the 601 sequence is not able to dictate strong nucleosomes positioning differing from the natural nucleosome repeat length of about 165 pb along the repeats in an in vivo context. We further investigated positions of dyads in the same three strains after inactivating the gene coding for the chromatin remodeler Chd1, which could potentially be responsible of the nucleosomes organization in the repeated area. Our results show no effect of Chd1, indicating that the “601” sequence has no positionning effect in vivo or that other trans-acting factors are implicated in nucleosome positioning in the engineered repeats. Finally, this work provides a new fast and simple approach for synthetic DNA repeats construction inside the yeast genome and could easily be applied for other synthetic chromatin engineering approaches. Positionnement des nucléosomes Chromatine Levure Séquence 601 ADN répété CRISPR/Cas9 Nucleosome positioning Chromatin Yeast 601 sequence DNA repeats CRISPR/Cas9
95	Identificação e avaliação da distribuição alélica de repetições do trinucleotídeo CTG no gene DMPK em indivíduos saudáveis e em pacientes com distrofia miotônica tipo 1 Rodrigues, Luiza Paulsen January 2016 (has links) O gene DMPK (Dystrophia Myotonica-Protein Kinase) humano está localizado no locus 19q13.3, sendo dividido em 15 éxons, com uma região polimórfica de repetições CTG em sua região 3’ não traduzida. Indivíduos normais apresentam de 5 a 34 repetições CTG. Indivíduos com alelos com mais de 50 repetições CTG apresentam distrofia miotônica tipo 1 (DM1), uma doença multissistêmica de herança autossômica dominante. Os sintomas incluem miotonia, fraqueza muscular progressiva, hipogonadismo, entre outros. Neste trabalho, a distribuição dos alelos do gene DMPK em indivíduos controles foi estabelecida em duas populações (brasileira e peruana), por meio de PCR convencional utilizando iniciadores fluorescentes e repeat-primed PCR. O protocolo confirmou 93 casos não relacionados de DM1 (76 brasileiros e 17 peruanos) após a análise de 224 amostras com suspeita clínica. A distribuição e as frequências dos alelos normais foram estabelecidas em ambas as populações e os alelos mais frequentes foram 5 (frequência = 0,326) e 13 (frequência = 0,545) repetições de CTG em brasileiros e peruanos, respectivamente. A frequência de alelos normais grandes (aqueles com mais de 45 repetições CTGs) foi de 9% e 4% em brasileiros e peruanos, respectivamente. Neste trabalho é descrita a análise molecular de DM1 na maior coorte brasileira até o momento e é o primeiro trabalho em que foi analisada a população peruana. A distribuição e a frequência de alelos normais também foram estabelecidas e alelos mutáveis foram detectados entre os indivíduos controles. / The human DMPK (Dystrophia Myotonica-Protein Kinase) gene is located at 19q13.3 locus, being organized into 15 exons, with a polymorphic tract of CTG repeats in its 3' untranslated region. Normal individuals have 5-34 CTG repeats. Individuals carrying alleles with more than 50 CTG repeats have myotonic dystrophy type 1 (DM1), a multisystemic disease of autosomal dominant inheritance. Symptoms include myotonia, progressive muscle weakness, hypogonadism, among others. Disease prevalence is variable among populations and may be related to the frequency of large normal alleles (those with more than 18 CTG repeats). Here we determined here the distribution of alleles of DMPK gene in healthy and DM1 patients in Brazilian and Peruvian populations, through conventional PCR using fluorescent primers and repeat-primed PCR. This protocol confirmed 93 unrelated cases of DM1 (76 Brazilians and 17 Peruvians) following the analysis of 224 samples with clinical suspicion. Distribution and frequencies of normal alleles were also established in both populations and the most frequent alleles were 5 (frequency of 0.326) and 13 (frequency of 0.545) CTG repeats in Brazilians and Peruvians, respectively. Frequency of large normal alleles (those with more than 45 CTG repeats) was established to be 9% and 4% in Brazilians and Peruvians, respectively. This report describes molecular analysis of DM1 in the largest Brazilian cohort so far, and is the first to report any data in the Peruvian population. Distribution and frequency of normal alleles were also established and mutable alleles were detected among controls. Distrofia Miotônica de Steinert Gene DMPK Myotonic dystrophy type 1 CTG repeats DMPK gene
96	Retroviral long Terminal Repeats; Structure, Detection and Phylogeny Benachenhou, Farid January 2010 (has links) Long terminal repeats (LTRs) are non-coding repeats flanking the protein-coding genes of LTR retrotransposons. The variability of LTRs poses a challenge in studying them. Hidden Markov models (HMMs), probabilistic models widely used in pattern recognition, are useful in dealing with this variability. The aim of this work was mainly to study LTRs of retroviruses and LTR retrotransposons using HMMs. Paper I describes the methodology of HMM modelling applied to different groups of LTRs from exogenous retroviruses (XRVs) and endogenous retroviruses (ERVs). The detection capabilities of HMMs were assessed and were found to be high for homogeneous groups of LTRs. The alignments generated by the HMMs displayed conserved motifs some of which could be related to known functions of XRVs. The common features of the different groups of retroviral LTRs were investigated by combining them into a single alignment. They were the short inverted terminal repeats TG and CA and three AT-rich stretches which provide retroviruses with TATA boxes and AATAAA polyadenylation signals. In Paper II, phylogenetic trees of three groups of retroviral LTRs were constructed by using HMM-based alignments. The LTR trees were consistent with trees based on other retroviral genes suggesting co-evolution between LTRs and these genes. In Paper III, the methods in Paper I and II were extended to LTRs from other retrotransposon groups, covering much of the diversity of all known LTRs. For the first time an LTR phylogeny could be achieved. There were no major disagreement between the LTR tree and trees based on three different domains of the Pol gene. The conserved LTR structure of paper I was found to apply to all LTRs. Putative Integrase recognition motifs extended up to 12 bp beyond the short inverted repeats TG/CA. Paper IV is a review article describing the use of sequence similarity and structural markers for the taxonomy of ERVs. ERVs were originally classified into three classes according to the length of the target site duplication. While this classification is useful it does not include all ERVs. A naming convention based on previous ERV and XRV nomenclature but taking into account newer information is advocated in order to provide a practical yet coherent scheme in dealing with new unclassified ERV sequences. Paper V gives an overview of bioinformatics tools for studies of ERVs and of retroviral evolution before and after endogenization. It gives some examples of recent integrations in vertebrate genomes and discusses pathogenicity of human ERVs including their possible relation to cancers. In conclusion, HMMs were able to successfully detect and align LTRs. Progress was made in understanding their conserved structure and phylogeny. The methods developed in this thesis could be applied to different kinds of non-coding DNA sequence element. Retrovirus long terminal repeats hidden Markov models phylogeny alignment conserved motif stem-loop Clinical virology Klinisk virologi
97	Detection and analysis of megasatellites in the human genome using in silico methods Benediktsson, Elís Ingi January 2005 (has links) Megasatellites are polymorphic tandem repetitive sequences with repeat-units longer than or equal to 1000 base pairs. The novel algorithm Megasatfinder predicts megasatellites in the human genome. A structured method of analysing the algorithm is developed and conducted. The analysis method consists of six test scenarios. Scripts are created, which execute the algorithm using various parameter settings. Three nucleotide sequences are applied; a real sequence extracted from the human genome and two random sequences, generated using different base probabilities. Usability and accuracy are investigated, providing the user with confidence in the algorithm and its output. The results indicate that Megasatfinder is an excellent tool for the detection of megasatellites and that the generated results are highly reliable. The results of the complete analysis suggest alterations in the default parameter settings, presented as user guidelines, and state that artificially generated sequences are not applicable as models for real DNA in computational simulations. Genomic variation repetitive sequences tandem repeats polymorphism satellite DNA megasatellites Megasatfinder in silico prediction algorithm analysis method. Bioinformatics Bioinformatik
98	Characterizing the Expression and Function of FLRT2 in the ATDC5 Chondroprogenitor Cell Line Flintoff, Kerry Anne 22 November 2012 (has links) Expression studies have implicated Fibronectin Leucine Rich Transmembrane protein 2 (FLRT2) in cranial neural crest cell migration and pre-chondrogenic cell condensation during craniofacial skeletogenesis. This aim of this study was to characterize the expression of FLRT2 and its relationship to the extracellular matrix (ECM) in ATDC5 chondroprogenitor cells. Immunofluorescence studies localized FLRT2 to the cell membrane as well as exracellularly, where it colocalized with fibronectin. FLRT2 was identified in the ATDC5-derived ECM after cell extraction. Further to its colocalization with fibronectin, FLRT2 associated with fibronectin-coated beads in cell cultures. Co-immunoprecipitation confirmed that FLRT2 and fibronectin interact, either directly or indirectly. Blocking fibronectin fibril formation in ATDC5 cell cultures demonstrated a concomitant decrease in extracellular FLRT2 accumulation. It appears that FLRT2 may exist in both a membrane-bound and a shed form. Either or both of these forms may participate in cell-ECM interactions in cooperation with fibronectin or other ECM proteins. ATDC5 chondrogenesis Leucine Rich Repeats condensation cell-ECM fibronectin extracellular matrix 0379
99	Characterizing the Expression and Function of FLRT2 in the ATDC5 Chondroprogenitor Cell Line Flintoff, Kerry Anne 22 November 2012 (has links) Expression studies have implicated Fibronectin Leucine Rich Transmembrane protein 2 (FLRT2) in cranial neural crest cell migration and pre-chondrogenic cell condensation during craniofacial skeletogenesis. This aim of this study was to characterize the expression of FLRT2 and its relationship to the extracellular matrix (ECM) in ATDC5 chondroprogenitor cells. Immunofluorescence studies localized FLRT2 to the cell membrane as well as exracellularly, where it colocalized with fibronectin. FLRT2 was identified in the ATDC5-derived ECM after cell extraction. Further to its colocalization with fibronectin, FLRT2 associated with fibronectin-coated beads in cell cultures. Co-immunoprecipitation confirmed that FLRT2 and fibronectin interact, either directly or indirectly. Blocking fibronectin fibril formation in ATDC5 cell cultures demonstrated a concomitant decrease in extracellular FLRT2 accumulation. It appears that FLRT2 may exist in both a membrane-bound and a shed form. Either or both of these forms may participate in cell-ECM interactions in cooperation with fibronectin or other ECM proteins. ATDC5 chondrogenesis Leucine Rich Repeats condensation cell-ECM fibronectin extracellular matrix 0379
100	Caracterización fucional y molecular del canal TRPV4 en el epitelio respiratorio y su relación con la fisiopatología de la fibrosis quística Arniges Gómez, Maite 30 June 2006 (has links) En este trabajo de tesis doctoral se caracteriza funcional y molecularmente el canal TRPV4 en varios modelos de células epiteliales respiratorias mostrando por primera vez la participación de este canal en la función osmoreguladora a nivel celular así como la identificación de nuevas variantes del canal. Se demuestra que la entrada de Ca2+ en respuesta a un hinchamiento hipotónico se produce a través del canal TRPV4 y es necesaria para una eficiente recuperación del volumen o RVD. Por su parte, las células epiteliales respiratorias con fenotipo de fibrosis quística no son capaces de reducir su volumen en un medio hipotónico a causa de una regulación defectuosa del canal, indicando, al mismo tiempo, que la regulación del TRPV4 por el estímulo hipotónico es dependiente de la CFTR.La caracterización de las variantes del canal TRPV4 demuestra que los dominios de ANK son determinantes moleculares claves en el proceso de oligomerización del canal. Al mismo tiempo este trabajo describe nuevos aspectos relacionados con la biogénesis del TRPV4 hasta ahora desconocidos: la oligomerización del canal tiene lugar en el RE, orgánulo donde es N-glicosilado de forma simple antes de ser transportado hacia el Golgi donde sus N-glicanos son madurados. / This thesis characterizes molecularly and funcionally the TRPV4 channel in various models of airway epithelial cells showing, for the first time, the involvement of this channel in an osmoregulatory cellular function as well as the isolation of new splice variants of this channel. It is demonstrated that the TRPV4 channel is the molecular Ca2+ pathway activated by hypotonic estimulus needed to trigger the RVD response. Furthermore, the cystic fibrosis airway epithelial cells showed an impaired RVD due to the misregulation of the TRPV4 channel, indicating that the regulation by the hypotonic stimulus is CFTR-dependent.The characterization of the new variants demonstrated that the ANK domains are key structural determinants in the oligomerization process of the TRPV4. This work also describes new aspects related to the biogenesis of this channel: oligomerization is achieved in the ER, where the TRPV4 is N-glycosilated and then transported to the Golgi where the glycans are matured. biogenesis ANK repeats TRP channels volumen celular RVD oligomerización biogénesis repeticiones de ANK CFTR TRPV4 canales TRP oligomerization cellular volume 616.2

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