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Showing result 1 - 5 of 121 swedish dissertations matching the above criteria.
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1. Targeted Long-read Sequencing : Development and Applications in Medical Genetics
Abstract : Targeted sequencing has the advantage of providing pinpointed DNA information, while costs and data-analysis efforts are reduced. If targeted sequencing is combined with single molecule long-read sequencing, it can become a powerful tool to investigate genomic regions traditionally difficult using the predominantly used short-read sequencing platforms, including repetitive regions and large structural variants. READ MORE
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2. Complex disease genetics : Utilising targeted sequencing and homogeneous ancestry
Abstract : The complex disease investigations presented in this thesis aimed to provide new information regarding underlying genetics by using targeted sequencing and ethnically homogeneous cohorts. This work moved past current methodologies and addressed data stratification issues, that might have been hindering new findings. READ MORE
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3. Sequencing cancer
Abstract : Cancer forms highly heterogeneous tissues at several molecular levels, genomic, proteomic, transcriptomic and other epigenetic traits. The level of complexity is further augmented by the dynamic nature of tumor progression with cancer cell populations evolving in a clonal manner. READ MORE
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4. Methods for Analyzing Genomes
Abstract : The human genome reference sequence has given us a two‐dimensional blueprint of our inherited code of life, but we need to employ modern‐day technology to expand our knowledge into a third dimension. Inter‐individual and intra‐individual variation has been shown to be larger than anticipated, and the mode of genetic regulation more complex. READ MORE
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5. Genomic and transcriptomic sequencing in chronic lymphocytic leukemia
Abstract : Identification of recurrent mutations through next-generation sequencing (NGS) has given us a deeper understanding of the molecular mechanisms involved in chronic lymphocytic leukemia (CLL) development and progression and provided novel means for risk assessment in this clinically heterogeneous disease. In paper I, we screened a population-based cohort of CLL patients (n=364) for TP53, NOTCH1, SF3B1, BIRC3 and MYD88 mutations using Sanger sequencing, and confirmed the negative prognostic impact of TP53, SF3B1 or NOTCH1 aberrations, though at lower frequencies compared to previous studies. READ MORE