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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Quels sont les signaux détectés par le point de contrôle du fuseau lors de la méiose dans l'ovocyte de souris ? / What are the signals detected by the spindle assembly checkpoint in mouse oocyte meiosis?

Vallot, Antoine 08 September 2017 (has links)
Au cours de mon travail de doctorat, je me suis intéressé aux mécanismes qui contrôlent la séparation équitable du génome lors de la méiose dans l’ovocyte de souris.Le point de contrôle du fuseau contrôle la ségrégation des chromosomes en méiose : en cas d'attachement incorrect des chromosomes au fuseau, l'anaphase est retardée ce qui permet d'éviter les aneuploïdies. En métaphase, l’attachement des chromosomes homologues aux deux pôles opposés du fuseau, génère une force de tension au niveau des kinétochores. Mon travail de thèse a consisté à déterminer si la tension exercée sur les chromosomes est un signal qui permet de satisfaire le point du contrôle du fuseau en méiose I dans l'ovocyte de souris. Lorsque la tension exercée sur les chromosomes homologues par les microtubules est diminuée par un traitement pharmacologique, la dégradation de la sécurine, qui marque l’entrée en anaphase, est retardée. Si le point de contrôle du fuseau est inhibé en absence de tension, l’anaphase n’est pas retardée, ce qui indique que le point de contrôle du fuseau est sensible à la tension.Nous avons aussi montré que la kinase Aurora B/C n’est pas requise pour la réponse du point de contrôle du fuseau aux chromosomes non attachés, mais qu’elle est essentielle à la réponse du point de contrôle du fuseau à la baisse de tensionDans un contexte où les erreurs de ségrégation en méiose sont très fréquentes chez la femme et augmentent drastiquement avec l'âge, nos travaux pourraient permettre d'identifier si ces mécanismes de contrôle sont diminués et moins efficaces avec l'âge chez la femme. / At each cell division, chromosomes must be faithfully segregated so that exactly one set of chromosomes is passed on to the next generation. The spindle assembly checkpoint (SAC) ensures faithful chromosome segregation in meiosis: upon uncorrect attachment of the chromosome to the spindle, anaphase onset is delayed in order to avoid chromosome missegregation and aneuploidies. For my PhD thesis, I wanted to determine whether tension applied by the spindle microtubules on the chromosomes is itself a signal that satisfies the SAC in mouse oocyte meiosis I. When tension is decreased by small molecule inhibitors, securin degradation, which is a readout of anaphase onset, is delayed. If the SAC is inhibited, then tension defects cannot delay anaphase onset. This indicates that the SAC is able to delay anaphase onset upon tension defects.Furthermore, we showed that Aurora B/C kinase is not required for the SAC response to unattached chromosomes but that Aurora B/C is required for the SAC response to tension defects.Chromosome segregation errors are very common in women and increase with age. In that context, our work could help to identify whether these key control mechanisms are less efficient in the mammalian oocyte with age.
12

Initiating the Spindle Assembly Checkpoint Signal: Checkpoint Protein Mad1 Associates with Outer Kinetochore Protein Ndc80 in Budding Yeast

Weirich, Alexandra January 2013 (has links)
The spindle assembly checkpoint (SAC) is an evolutionarily conserved mechanism that delays the initiation of anaphase by inhibiting the Anaphase Promoting Complex (APC) until all kinetochores have achieved bipolar attachment on the mitotic spindle. Mad1-3, Bub1, and Bub3, components of the SAC, are conserved from yeast to humans. These proteins localize to unattached kinetochores, though it is unknown with which kinetochore proteins they interact and how these interactions transduce information about microtubule attachement. Here, purification of the checkpoint proteins from Saccharomyces cerevisiae suggests that Mad1 interacts with the outer kinetochore protein Ndc80 in a SAC, cell cycle, and DNA dependent manner. Ndc80 is thought to mediate attachment of kinetochores to microtubules so the interaction between Mad1 and Ndc80 suggests a mechanism by which cells sense kinetochore-microtubule attachment. The SAC is of special importance in some types of cancer where genetic damage and aneuploidy is correlated with mutated SAC genes. A better understanding of the SAC mechanism will aid in the development of targetted cancer therpeutics.
13

In vitro effects of 2-methoxyestradiol, an endogenous estrogen, on MCF-12A and MCF-7 cell cycle progression

Van Zijl, Magdalena Catherina 24 July 2007 (has links)
2-Methoxyestradiol (2ME) is an endogenous estrogen metabolite with antiproliferative and antiangiogenic properties. 2ME also plays an active role in the induction of apoptosis, especially in cancerous cells. These properties have been confirmed by various in vitro and in vivo studies and render 2ME a potential antitumor agent. The mechanism of action of 2ME, however, is not yet fully elucidated and it is believed that multiple mechanisms are involved that may be dependent on cell type. The aim of this study was to investigate the differential effects of 2ME on cell growth, morphology and spindle formation in the non-tumorigenic MCF-12A breast cell line and the tumorigenic MCF-7 breast cell line. In dose-dependent studies, cell growth was determined spectrophotometrically. Light microscopy was used to investigate the morphological changes induced by 2ME and its effect on spindle formation was investigated by means of indirect immunofluorescence. The estrogen receptor status of the MCF-12A cells was confirmed with immunocytochemistry. In order to investigate the effect of 2ME on the length of the cell cycle, cells were blocked in early S-phase with hydroxyurea, then allowed to continue through the cell cycle and mitotic indices determined at regular time intervals. Checkpoint kinase and Cdc2 kinase assays were used to determine the effect of 2ME on relevant cell cycle kinases. Although 2ME inhibited cell growth in both cell lines, the MCF-7 cells were inhibited from much lower concentrations and growth inhibition was more pronounced than in the MCF-12A cells. Treated MCF-7 cells showed abnormal metaphase cells, membrane blebbing, apoptotic cells and disrupted spindle formation. These observations were either absent, or not as prominent in the MCF-12A cells. Therefore, differential mechanism(s) of growth inhibition are evident between the normal and tumorigenic cells. Although the two cell lines differ in their estrogen receptor status, this could not explain the differential effects, for 2ME has a very low affinity for the estrogen receptor. 2ME had no effect on the length of the cell cycle, but blocked MCF-7 cells in mitosis. There were no significant alterations in the phosphorylation status of Cdc25C after 2ME treatment. However, Cdc2 activity was increased to a greater extend in the MCF-7 cells than in the MCF-12A cells. Therefore, it is suggested that exposure to 2ME disrupts mitotic spindle formation and enhances Cdc2 kinase activity, leading to persistence of the spindle checkpoint and thus prolonged metaphase arrest, which may result in the induction of apoptosis. The tumorigenic MCF-7 cells are especially sensitive to 2ME treatment compared to the normal MCF-12A cells. 2ME shows potential for the treatment of breast cancer. Selecting the concentration of 2ME that has maximum inhibitory effect on tumorigenic, but minimal effect on normal cells is crucial in its possible application as antitumor agent. Furthermore, research concerning the differential action mechanisms of 2ME is essential to create a better understanding regarding the treatment of cancer and may possibly contribute to the development and/or improvement of novel chemotherapeutic agents. / Dissertation (MSc (Physiology))--University of Pretoria, 2008. / Physiology / unrestricted
14

The nuclear pore protein Nup153: Dissecting its role in nuclear envelope and nuclear pore complex architecture and its interaction with the spindle assembly checkpoint protein Mad1

Mossaid, Ikram 04 August 2016 (has links) (PDF)
Nuclear pore complexes (NPCs) are embedded in the nuclear envelope (NE) and composed of proteins called nucleoporins. NPCs as such control the bidirectional traffic of proteins and RNAs between the nucleus and the cytoplasm in eukaryotic cells whereas individual nucleoporins were found to be implicated in other cellular processes such as, cell division, kinetochore assembly, gene expression and cell migration. A prime example for nucleoporin functional versatility can be seen in Nup153. Nup153 is since its discovery known to be a central player in nucleocytoplasmic transport, but additionally participates directly or indirectly, for example, in gene expression and cell cycle control. In this context, it was previously shown that altered levels of Nup153 led to mitotic abnormalities, particularly in cytokinesis and in the spindle assembly checkpoint (SAC). The SAC promotes accurate chromosome separation to ensure the faithful segregation of genetic material to daughter cells. Nup153 was found to interact with the SAC protein Mad1. In the present study, we have further dissected the interaction between Nup153 and Mad1 and investigated the function of the Nup153-Mad1 complex in human cells. By using the high resolution imaging technique “in situ proximity ligation assay”, we found that Nup153 and Mad1 interact with each other exclusively in the presence of a NE, from late mitosis to prophase. By in vitro binding assays, we have confirmed the direct interaction between Nup153 and Mad1 and furthermore identified two independent Nup153-binding sites in Mad1. We have also provided some evidence that Nup153 interacts also with SUMO-modified Mad1.It was previously shown that depletion of Nup153 had no obvious effect on Mad1 and SAC activity. In the present study, we have shown by time-lapse imaging microscopy that the depletion of Mad1 led to a delayed recruitment of Nup153 at the reforming NE during anaphase in living cells, which was often accompanied by a prolongation of anaphase. Furthermore, Mad1 depletion led to alterations in the NE architecture, which were characterized by a change of the membrane curvature at the NPC-NE interface. This was followed by an expansion of the spacing between the inner and outer membranes as seen by electron microscopic and three-dimensional structured illumination investigations. This suggests an implication of Mad1 in a mechanism related to the NE reformation and stability independent of the SAC. Mad1 depletion also resulted in redistribution of the ER network and mitochondria throughout the cell as seen by fluorescence microscopy. Nup153 depletion coincided with the NE abnormalities and alteration of these organelles similar to that seen in Mad1-depleted cells. Further, by fluorescence microscopy, we have shown that Nup153 depletion, but not of Mad1, partially affected the localization of the cytoplasmic nucleoporins in human and in mouse cells and thus the NPC integrity. In conclusion, altogether, our results suggest that Nup153 is essential for NE and NPC integrity. Nup153 has likely separable roles in this context: one in post-mitotic NE reformation with Mad1 and one in interphase in NPC assembly. Nup153-Mad1 complex has a function independent of the spindle checkpoint, but important for the establishment of an intact NE architecture. / Les pores nucléaires sont des structures enchâssées dans l’enveloppe nucléaire et composées de protéines appelées les nucléoporines. Ces pores nucléaires contrôlent le trafic bidirectionnel des protéines et des ARNs entre le noyau et le cytoplasme dans les cellules eucaryotes tandis que les nucléoporines individuelles sont également impliquées dans d’autres processus cellulaires tels que la division cellulaire, l’assemblage des kinétochores, l’expression génétique et la migration cellulaire. Un exemple primordial de la versatilité fonctionnelle des nucléoporines peut être observé à travers Nup153. Depuis sa découverte, Nup153 est connue pour être un élément clé dans le transport nucléo-cytoplasmique, mais il a également été démontré qu’elle participait directement ou indirectement à l’expression génétique et au contrôle du cycle cellulaire. Dans ce contexte, nous avons montrés précédemment que des niveaux altérés de Nup153 menaient à des anomalies mitotiques, particulièrement en cytokinèse et dans le point de contrôle de l’assemblage du fuseau mitotique (SAC). Le SAC assure la ségrégation correcte du matériel génétique entre les cellules filles. Il a été montré que Nup153 interagit avec la protéine du SAC Mad1. Dans cette étude, nous avons utilisé une technique d’imagerie de haute résolution, « in situ proximity ligation assay » pour disséquer davantage l’interaction entre Nup153 et Mad1 dans les cellules humaines. Nous avons montré que ces deux protéines interagissent exclusivement au niveau de l’enveloppe nucléaire, depuis les dernières phases de la mitose jusqu’à la prophase. Par des expériences d’interaction in vitro, nous avons également identifiés sur Mad1 deux sites de liaison indépendants pour Nup153. Nous avons également fourni des indications que Nup153 interagit aussi avec une forme SUMOylée de Mad1. La déplétion de Mad1 menait à un recrutement tardif de Nup153 au niveau de l’enveloppe nucléaire en cours de reformation en anaphase dans les cellules vivantes et à des altérations de l’architecture de l’enveloppe nucléaire, caractérisées par un changement de la courbure membranaire au niveau de l’interface pore nucléaire-enveloppe nucléaire. Suite à cela, une expansion de l’espace entre les membranes nucléaires internes et externes a été observée par microscopie électronique. Ceci suggère une implication de Mad1 dans un mécanisme lié à la stabilité de l’enveloppe nucléaire indépendant du SAC. La déplétion de Mad1 résultait également en une redistribution du RE et des mitochondries à travers la cellule. La déplétion de Nup153 coïncidait avec des anomalies similaires au niveau de l’enveloppe nucléaire et des organelles. De plus, la déplétion de Nup153 affectait partiellement la localisation des nucléoporines cytoplasmiques, contrairement à la déplétion de Mad1. Ensemble, nos résultats suggèrent que Nup153 est essentielle pour l’intégrité des pores nucléaires et de l’enveloppe nucléaire. Nup153 semble avoir deux rôles, un au niveau de la formation de l’enveloppe nucléaire en fin de mitose, en complexe avec Mad1 et un autre rôle au niveau de l’assemblage des pores nucléaires. Le complexe Nup153-Mad1 a une fonction indépendante du SAC, mais importante pour l’établissement d’une enveloppe nucléaire intacte. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished
15

Characterizing BUBR1 interactions with MAD2 and p31comet during the Mitotic Checkpoint

LaBelle, Jenna J. January 2018 (has links)
No description available.
16

TRIP13 AAA-ATPase Promotes Spindle Assembly Checkpoint Activation through Coordinating with MAD1 at Unattached Kinetochores

Arnst, Christopher Edward 04 September 2019 (has links)
No description available.
17

Spindle Assembly Checkpoint Stability Depends on Integrity of the Nucleolus and Septins in <i>Saccharomyces cerevisiae</i>

Rai, Urvashi 05 June 2017 (has links)
No description available.
18

The Regulation of Sororin by Phosphorylation

Dreier, Megan Renee 26 June 2012 (has links)
No description available.
19

How to Assemble a Functional Mitotic Checkpoint Complex

Tipton, Aaron R. 20 September 2012 (has links)
No description available.
20

Functional interactions between the Arabidopsis homologs of spindle assembly checkpoint proteins MAD1 and MAD2 and the nucleoporin NUA

Ding, Dongfeng January 2011 (has links)
No description available.

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