Search for dissertations about: "Polycomb Group proteins"
Showing result 1 - 5 of 10 swedish dissertations containing the words Polycomb Group proteins.
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1. Methyltransferase Ash1, histone methylation and their impact on Polycomb repression
Abstract : Antagonistic interactions between Polycomb Group (PcG) and Trithorax Group (TrxG) proteins orchestrate the expression of key developmental genes. Distinct maternally loaded repressors establish the silenced state of these genes in cells where they should not be expressed and later PcG proteins sense whether a target gene is inactive and maintain the repression throughout multiple cell divisions. READ MORE
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2. Suppressor of zeste 12, a Polycomb group gene in Drosophila melanogaster; one piece in the epigenetic puzzle
Abstract : In multicellular organisms all cells in one individual have an identical genotype, and yet their bodies consist of many and very different tissues and thus many different cell types. Somehow there must be a difference in how genes are interpreted. So, there must be signals that tell the genes when and where to be active and inactive, respectively. READ MORE
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3. Regulation of gene expression in fruit flies : how does it start, and will it be remembered?
Abstract : One of the most distinctive features of eukaryotic chromosomes is the bundling of DNA together with functionally associated RNA and proteins in chromatin. This allows huge amounts of DNA to be packed inside the very tiny space of the nucleus, and alterations in the structure of chromatin enable access to the DNA for transcription (“reading” genes by production of RNA copies). READ MORE
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4. Histone modification regulated bysuppressor of Zeste 12 and Ipl1 : Aurora-like kinase in Drosophila
Abstract : Polycomb group (PcG) proteins are a group of genome wide silencers that are crucial for many processes during the development. In Drosophila PcG proteins are organised into four different complexes: PRC1, PRC2, PhoRC and PR-DUB. PRC2 consists of four core proteins: Su(z)12, E(z), Esc and Nurf. READ MORE
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5. Regulation of TGFβ signaling by long non-coding RNAs and ADP-ribosylation
Abstract : Transforming growth factor β (TGFβ) signaling pathways participate in embryonic development and tissue homeostasis and have a dual role in cancer. TGFβ acts as a tumor suppressor that promotes cell cycle arrest and apoptosis at initial stages of tumorigenesis. READ MORE