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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.
1

Polycomb proteins and breast cancer

Fedele, Vita January 2012 (has links)
In the Western world, breast cancer is the most frequent malignancy in women and still the leading cause of cancer related deaths, therefore, a better understanding of the disease is needed. Adequate therapeutic targets for all breast cancer types have not been identified yet, and patients with the same type of cancer have often different outcomes. Polycomb proteins are emerging as important factors involved in breast cancer formation. Polycomb proteins play a crucial role in embryogenesis, early development, stem cell renewal and establishing and maintaining cell identity. Their alteration leads to mis-regulation of several important cellular factors including tumour suppressors, DNA repair factors, cell cycle regulation factors and cell-cell interaction factors. In this thesis the importance of several polycomb proteins in breast cancer has been investigated. The effect of EZH2 knockdown has been tested in breast cancer cell lines expressing different level of the protein and with different features. The results obtained are in line with other studies and suggest that the effect of EZH2 down-regulation in breast cancer cells is dependent on cellular context. In vitro experiments, using both established breast cell lines and primary epithelial cells have been used for investigating the importance of CBX8 in breast cancer. The results obtained showed that the polycomb proteins CBX8 does not play a central role in malignant transformation of the mammary epithelial cells tested.
2

Analyse fonctionnelle de la protéine Enhancer of zeste, SlEZ2, chez la tomate Solanum lycopersicum

Boureau, Lisa 13 December 2011 (has links)
Analyse fonctionnelle de la protéine Enhancer of Zeste, SlEZ2, chez la tomate, Solanum lycopersicumLes protéines Polycomb, initialement découvertes chez la drosophile, ont récemment caractérisées chez les plantes où elles remplissent des fonctions essentielles au cours du développement de la plante. Chez la drosophile, les protéines polycomb (PcG) agissent sous forme de trois complexes multi-protéiques : PRC1, PRC2 et PhoRC. Seulement, deux de ces complexes ont été identifiés chez les plantes : un orthologue fonctionnel du complexe PRC1 (PRC1-like) et PRC2. Le complexe PRC2 maintien la chromatine dans un état condensé et intervient dans le contrôle du développement des fleurs, des graines, des fruits et des feuilles. Chez la tomate Solanum lycopersicum, le complexe PRC2 est composé de trois protéines polycomb : SlEMF2 (EMbryotic Flower), SlFIE (Fertilization Independent Endosperm) and SlE(Z) (Enhancer of Zeste). Les protéines SlE(Z) portent l’activité histone méthyl transférase qui permet la mise en place de la marque répressive H3K27me3. Chez la plante modèle, Arabidopsis thaliana, cette marque joue un rôle essentiel au cours du développement de la plante Afin d’étudier le rôle du complexe PRC2 dans le développement du fruit et de la plante de tomate, et plus particulièrement de la protéine SlE(Z), nous avons identifié trois gènes codant les protéines SlE(Z) : SlEZ1, SlEZ2 et SlEZ3. Au laboratoire, il a récemment été montré que la protéine SlEZ1 intervient au cours du développement floral (How Kit et al., 2010). L’objectif de ce travail est de déterminer la fonction de la protéine SlEZ2 au cours du développement du fruit et de la plante de tomate. Pour cela, nous avons analysé des plantes transgéniques sous exprimant le gène SlEZ2, orthologue au gène CURLY LEAF d’A. thaliana, par stratégie RNAi. Ce travail indique que la protéine SlEZ2 est impliquée dans la croissance de la plante de tomate, ainsi que dans le développement des feuilles, des fleurs et des fruits. Les plantes transgéniques présentent des phénotypes pléiotropes tels que des fleurs et des feuilles modifiées, un fort taux d’avortement des fruits, des fruits de texture et de couleur altérées ainsi qu’une réduction de la taille des plantes. De plus, nous avons identifiés quatre gènes ciblés par la protéine SlEZ2 dont l’expression est dérégulée dans les feuilles. Il s’agit de deux gènes à MADS box, TAG1 et TAGL1, ainsi que de deux gènes KNOX, LeT6 et TKN4. / Functional analysis SlEZ2, a tomato Enhancer of zeste proteinPolycomb proteins, first discovered in Drosophila, have been identified in plants and play essential functions in plant development. In Drosophila, polycomb proteins (PcG) acts as a complex and three have been identified: PRC1, PRC2 and PhoRC. However, only two polycomb complexes have been identified in plants: like-PCR1 and PRC2. The PCR2 complex maintain chromatin in a closed state and control flower, seed, fruit and leaf development.In tomato Solanum lycopersicum, PRC2 is composed by three polycomb proteins SlEMF2 (EMbryotic Flower), SlFIE (Fertilization Independent Endosperm) and SlE(Z) (Enhancer of Zeste)(Enhancer of Zeste). SlE(Z) proteins have a methyltransferase activity that puts in place an repressive epigenetic mark a trimethylation of lysine 27 histone 3. In plant model, Arabidopsis thaliana, this mark plays an essential role in plant development but little is known about PRC2 role in plant and fruit development of tomato. In order to unravel the function of the E(z) protein in the control of tomato fruit and plant development, we have characterized three E(z) encoding genes, namely SlEz1, SlEz2 and SlEZ3. In a recent work, we reported that SlEZ1 protein plays a role in flower development (How Kit at al., 2010). The aim of this present study was to determine the function of the SlEZ2 protein in plant and fruit development. We present our results focusing on RNAi transgenic plants which underexpressed SlEZ2 gene, homologue of Curly Leaf Arabidopsis gene. This analysis indicates that SlEZ2 protein is implicated in tomato plant growth and affects also leaf, flower and fruit development. Phenotypes include abnormal flowers and leafs, fruit development abortion, altered fruit colour and texture and plant of reduced size. Moreover, we characterize four target genes of SlEZ2 genes in leaves which present a deregulated expression : TAG1, TAGL1, LeT6 and TKN4.

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