Search for dissertations about: "cell cycle regulatory proteins"
Showing result 1 - 5 of 78 swedish dissertations containing the words cell cycle regulatory proteins.
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1. Cell cycle regulation in cancer: A noncoding perspective
Abstract : The cell cycle progression is tightly regulated to ensure error-free cell replication. The complexity of the transcriptional machinery aids to function in a spatiotemporal pattern across different phases and genomic loci. READ MORE
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2. Cell Cycle Regulation in Human Renal Cell Carcinoma
Abstract : ABSTRACTCell cycle regulation in human renal cell carcinomaYlva Hedberg, Departments of Medical Biosciences, Pathology, and Surgical andPerioperative Sciences, Urology Andrology, Umeå University, SwedenDeregulated growth control is a hallmark of neoplasia potentially caused by aberrant expression of cell cycle regulatory proteins. The importance of such aberrations in human renal cell carcinoma (RCC) has not been fully clarified. READ MORE
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3. Cell cycle regulatory proteins and miRNAs in premalignant lesions and breast cancer
Abstract : Early diagnosis and reliable prognosis and treatment prediction of breast cancer will ultimately lead to a decreased mortality rate. This can be achieved by identification of prognostic and treatment predictive biomarkers, and by understanding the mechanisms behind early changes in the breast. READ MORE
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4. The Polyamine Dependence of Cell Cycle Progression-Application in Breast Cancer Treatment
Abstract : In the normal functioning organism, there is a balance between cell proliferation, cell differentiation, and cell death. An imbalance in these processes results in different diseases. This thesis concerns the imbalance where there is too little cell death and cell differentiation with increased cell proliferation. READ MORE
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5. Exploring the Cell Cycle of Archaea
Abstract : Archaea is the third domain of life, discovered only thirty years ago. In a microscope archaea appear indistinguishable from bacteria, but they have been shown to be more closely related to eukaryotes than to bacteria. Especially central information processing is homologous to that of eukaryotes. READ MORE