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Characterizing YAC replication : identification and deletion of replication origins within a human DNA insert /Van Brabant, Anja Josifa, January 1998 (has links)
Thesis (Ph. D.)--University of Washington, 1998. / Vita. Includes bibliographical references (leaves [176]-186).
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Replication dynamics in Saccharomyces cerevisiae in the absence of an essential kinase /Hunt, Sonia Yvette, January 2002 (has links)
Thesis (Ph. D.)--University of Washington, 2002. / Vita. Includes bibliographical references (leaves 169-183).
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Regulation of the Epstein-Barr virus C promoter by the OriP-EBNA1 complex /Boreström, Cecilia, January 2008 (has links)
Diss. (sammanfattning) Göteborg : Göteborgs universitet, 2008. / Härtill 4 uppsatser.
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Principes de la régulation des origines de réplication par la lysine méthyltransférase PR-Set7 / Principle of replication origins regulation by the lysine methyltransferase PR-Set7Brustel, Julien 14 December 2012 (has links)
La réplication de l'ADN au cours de la phase S est initiée au niveau de sites spécifiques, appelés origines de réplication, qui sont distribués de manière adéquate le long des chromosomes et actifs une seule fois par cycle cellulaire. Les mécanismes qui contrôlent la position des origines de réplication restent énigmatiques chez les mammifères. Les travaux réalisés pendant cette thèse révèlent que la lysine méthyltransférase PR-Set7 humaine, responsable de la mono-méthylation de la lysine 20 de l'histone H4, induit un réarrangement chromatinien au niveau des nombreuses origines de réplication des gènes actifs. Celui-ci est caractérisé par la mono- et tri-méthylation de la lysine 20 de l'histone H4 et la tri-méthylation de la lysine 4 de l'histone H3. Ce profil de méthylation d'histones constituerait un signal épigénétique pour le recrutement sur la chromatine des facteurs nécessaires à la formation des origines de réplication, indépendamment d'un rôle sur la transcription. En effet, la présence d'une forme active de PR-Set7 en amont d'un gène rapporteur est suffisante pour induire cette cascade de méthylation et la formation d'une nouvelle origine de réplication au niveau de ce gène sans en modifier son expression. De la même manière, l'inactivation de l'enzyme dans une cellule conduit à l'inverse à une diminution du nombre total d'origines sans un effet majeur sur l'expression des gènes. Lors de la phase S, PR-Set7 est dégradée via le complexe E3 ligase CRL4Cdt2 et la protéine PCNA. Cette dégradation permet la disparition au niveau de la chromatine du signal de formation des origines, s'assurant ainsi qu'elles sont actives une seule fois par cycle. La mutation du domaine d'interaction avec PCNA est suffisante en effet pour empêcher la dégradation de PR-Set7, entraînant alors la formation et activation répétées des origines pendant la phase S (phénotype de sur-réplication). Ces résultats établissent la cascade de méthylation initiée par PR-Set7 pendant la mitose comme le mécanisme épigénétique contrôlant la mise en place et l'activation d'au moins la moitié des origines de réplication chez les mammifères. / In order to ensure accurate inheritance of genetic information through cell proliferation, chromosomes must be precisely copied once and only once and then correctly distributed to daughter cells. Chromosome replication occurs during the S phase of the cell cycle and is initiated at discrete chromosomal sites called replication origins. However, the ability to activate replication origins occurs during mitosis of the previous cell cycle and continuing into early G1 phase. This crucial step, called DNA replication licensing, consists of the assembly of a multi-protein pre-Replicative Complex (pre-RC) onto origins, making them competent for replication. During S phase, pre-RC are inhibited by different ways, that ensures that origins are activated only once per cycle and prevents DNA rereplication (multiple initiations from the same origin). In metazoans, functional replication origins do not show defined DNA consensus sequences, thus evoking the involvement of chromatin determinants in the selection of these origins.During my thesis, I have discovered that that the onset of licensing in mammalian cells coincides with an increase in histone H4 Lysine 20 monomethylation (H4K20me1) at replication origins by the methyltransferase PR-Set7. By genome mapping of H4-20me1 signals during the cell cycle, we found that nearly half of origins that fire during S phase are associated with H4-K20me1 during mitosis, when the process of replication licensing is activated. This mitotic H4-K20me1 signature is highly significant for origins located near transcription start sites and promoters that are characterized by the presence of CpG islands and H3-K4me3 signals. Furthermore, tethering PR-Set7 methylase activity to an origin-free genomic locus is sufficient to promote a chromatin remodeling follow by a creation of a functional origin of replication and promotes replication initiation. PR-Set7 and H4K20me1 are cell-cycle regulated, with high levels during M and early G1 and very low in S phase. At the onset of S phase, PR-Set7 undergoes an ubiquitin-mediated proteolysis, which depends on its interaction with the sliding-clamp protein PCNA and involves the ubiquitin E3 ligase CRL4-Cdt2. Strikingly, expression of a PR-Set7 mutant insensitive to this degradation causes the maintenance of H4K20me1 and repeated DNA replication at origins. This photolytic regulation controls the initiation of replication origin.This suggests that a cascade of lysine methylation events, initiated by PR-Set7 during mitosis, would define the position of origins in open chromatin structures.
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Identification and characterization of a checkpoint triggered by delayed replication in S. cerevisiae /Buchanan, Christina Diane, January 2001 (has links)
Thesis (Ph. D.)--University of Washington, 2001. / Vita. Includes bibliographical references (leaves 105-117).
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Human papillomavirus segregation and replication /Dao, Luan D. January 2008 (has links) (PDF)
Thesis (Ph. D.)--University of Alabama at Birmingham, 2008. / Title from first page of PDF file (viewed Feb 10, 2009). Includes bibliographical references.
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Regulation of DNA Replication Initiation by Histone Acetylation and the DNA Unwinding Element Binding Protein DUE-BKemp, Michael George 15 December 2006 (has links)
No description available.
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MAPKs regulate nuclear import of human papillomavirus type 11 replicative helicase E1Yu, Jei-Hwa. January 2008 (has links) (PDF)
Thesis (Ph. D.)--University of Alabama at Birmingham, 2008. / Title from first page of PDF file (viewed June 5, 2008). Includes bibliographical references.
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Dynamique de la réplication de l’ADN et complexe pré-réplicatif chez Leishmania sp.. : apport du système CRISPR/Cas9 / DNA replication dynamics and pre-replication complex in Leishmania : implementation of the CRISPR/Cas9 system in this divergent eukaryoteSollelis, Lauriane 20 December 2016 (has links)
Leishmania est un parasite eucaryote divergent responsable d’un large spectre de maladies à travers le monde. Ce parasite est caractérisé par une aneuploïdie mosaïque, constitutive, c’est-à-dire qu’au sein d’une population chaque cellule comporte une combinaison unique de mono-, di- et trisomies de chacun de ses 36 chromosomes. L’aneuploïdie mosaïque est générée et maintenue chez les générations suivantes grâce à un taux élevé de répartition asymétrique des chromosomes lors de la mitose, entrainant le gain ou la perte de chromosomes entiers. Ceci implique une régulation non-conventionnelle de la réplication, suivie d’une ségrégation permissive des chromosomes.L’objectif général de cette étude était de comprendre la dynamique de la réplication de l’ADN ainsi que de cartographier les sites d’initiation de la réplication chez Leishmania, en utilisant la technique du peignage moléculaire d’une part et celle du ChIP-seq d’une autre part. Nous avons ainsi pu caractériser les différents paramètres de progression de la fourche de réplication. Un des résultats majeurs qui ressort de cette étude est que Leishmania possède les plus grandes distances inter-origines et la plus grande vitesse de réplication parmi les autres eucaryotes déjà étudiés. Nous avons également pu estimer que le génome de Leishmania possède environ 168 origines de réplication. Afin d’étudier les acteurs impliqués dans la réplication de l’ADN chez Leishmania, nous avons développé l’outil génétique CRISPR/Cas9. Pour développer cet outil, nous avons basé notre approche sur une stratégie à deux vecteurs : l’un permet l’expression du single guide (sg)RNA et l’autre celle de l’endonucléase Cas9. La validation de cet outil génétique a été réalisée par le knock-out du locus PFR2 codant une protéine flagellaire. Dans un second temps, nous avons fait évoluer le CRISPR/Cas9 vers un système inductible pour réaliser les knock-out et des étiquetages au locus endogène de protéines d’intérêt. Nous avons utilisé ce nouveau système pour étudier la fonction de deux protéines potentiellement impliquées dans le complexe de reconnaissance des origines de réplication. Malgré une fuite du système, nous avons pu réaliser le KO des gènes Orc1b et Orc1/Cdc6 et suivre la progression du cycle cellulaire. Nous avons pu constater que la perte de ces gènes conduisait à un défaut de croissance ainsi qu’à l’apparition de cellules sans noyau. L’insertion d’une étiquette au locus endogène d’Orc1b nous a parmi de confirmer la localisation que nous avions obtenue avec une construction épisomale et va permettre d’étudier plus précisément le rôle de cette protéine.En conclusion, nous avons mis en évidence des paramètres de réplication originaux et démontré, en utilisant le CRISPR/Cas9, que les protéines Orc1b et Ocr1/Cdc6 étaient impliquées dans la duplication du noyau de Leishmania, ce qui est en accord avec leur rôle putatif dans la réplication de l’ADN. / Leishmania, a protozoan parasite which causes a large range of diseases worldwide, is characterized by a constitutive 'mosaic aneuploidy', i.e. each cell in a population possesses a unique combination of mono-, di- and trisomies for each of its 36 heterologous chromosomes. Mosaic aneuploidy is generated and maintained via high rates of asymmetric chromosomal allotments during mitosis, leading to the gain or loss of whole chromosomes. This implies an unconventional regulation of the replication, followed by a permissive segregation.The main objective of this study was to unravel DNA replication dynamics and to map the replication initiation sites in Leishmania using DNA combing and ChIP-seq analyses. First, we have characterized DNA replication fork parameters. One of the major findings of this study was that Leishmania exhibits the fastest replication speed and the largest interorigin distances among the eukaryotes tested so far. We have also estimated that the Leishmania major genome possesses 168 origins of replication.To study the actors involved in DNA replication, we first had to develop novel genetic tools. The CRISPR/Cas9 (clustered regularly interspaced short palindromic repeats and CRISPR associated endonuclease 9) system is a recently discovered powerful technique for genome editing. In order to adapt this system to Leishmania, we have chosen a two-plasmid strategy: one for the expression of the single guide (sg) RNA and a second for the expression of the endonuclease CAS9. The proof of concept has been based on the disruption of the paraflagellar rod-2 (PFR2) loci by the CRISPR-Cas9 system. In a second attempt, we have developed an inducible CRISPR-Cas9 system, both to obtain knock outs and to perform marker-free endogenous gene tagging. We used the system to investigate the function of Origin Recognition Complex proteins. Although the system was leaky, the genome was edited as expected. We thus deleted Orc1b and Orc1/Cdc6 and monitored the cell cycle progression of the parasite. We found that the depletion of these nuclear proteins lead to a growth defect and to the appearance of zoids (anucleated cells). The endogenous tagging of Orc1b confirmed the localization previously obtained using an episomal expression vector, and will allow further investigation on the role of this protein.In total, we have shown the presence of original replication dynamics parameters in Leishmania, and using CRISPR Cas9, we have demonstrated that Orc1b and Orc1/Cdc6 are involved in the nuclear duplication of Leishmania, in agreement with their putative in DNA replication.
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Regulation of DNA Replication Origins in Fission Yeast: A DissertationKommajosyula, Naveen 03 August 2009 (has links)
Cells need to complete DNA replication in a timely and error-free manner. To ensure that replication is completed efficiently and in a finite amount of time, cells regulate origin firing. To prevent any errors from being transmitted to the next generation, cells have the checkpoint mechanism.
The S-phase DNA damage slows replication to allow the cell to repair the damage. The mechanism of replication slowing by the checkpoint was not clear in fission yeast, Schizosaccharomyces pombe, at the start of my thesis. The downstream targets of the DNA damage checkpoint in fission yeast were also unclear. I worked on identifying the downstream targets for the checkpoint by studying if Cdc25, a phosphatase, is a target of the checkpoint.
Work from our lab has shown that origin firing is stochastic in fission yeast. Origins are also known to be inefficient. Inefficient origins firing stochastically would lead to large stretches of chromosome where no origins may fire randomly leading to long replication times, an issue called the random gap problem. However, cells do not take a long time to complete replication and the process of replication itself is efficient. I focused on understanding the mechanism by which cells complete replication and avoid the random gap problem by attempting to measure the firing efficiency of late origins.
Genome-wide origin studies in fission yeast have identified several hundred origins. However, the resolution of these studies can be improved upon.
I began a genome-wide origin mapping study using deep sequencing to identify origins at a greater resolution compared to the previous studies. We have extended our origin search to two other Schizosaccharomyces species- S. octosporus and S. japonicus.There have been no origin mapping studies on these fission yeasts and identifying origins in these species will advance the field of replication.
My thesis research shows that Cdc25 is not a target of the S-phase DNA damage checkpoint. I showed that DNA damage checkpoint does not target Cdc2-Y15 to slow replication. Based on my preliminary observation, origin firing might be inhibited by the DNA damage checkpoint as a way to slow replication. My efforts to measure the firing efficiency of a late replicating sequence were hindered by potentially unidentified inefficient origins firing at a low rate and replicating the region being studied. Studying the origin efficiency was maybe further complicated by neighboring origins being able to passively replicate the region. To identify origins in recently sequenced Schizosaccharomyces species, we initiated the genome-wide origin mapping. The mapping was also done on S. pombe to identify inefficient origins not mapped by other mapping studies. My work shows that deep sequencing can be used to map origins in other species and provides a powerful tool for origin studies.
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