Search for dissertations about: "high-throughput DNA analysis"
Showing result 1 - 5 of 80 swedish dissertations containing the words high-throughput DNA analysis.
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1. Droplet microfluidics for high throughput biological analysis
Abstract : Many areas of biological research increasingly perform large-scale analyses. In genomics the entire gene repertoire of an organism is analyzed. Proteomics attempts to understand the function and expression patterns of all proteins in a cell or organism. READ MORE
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2. Improved Techniques for High-Throughput Molecular Diagnostics
Abstract : The amount of information derived from sequencing the humangenome is leading to an exponential increase in the rate atwhich genes and genetic disorders are mapped and characterized.As a consequence, the demand for genetic testing is alsodramatically increasing. READ MORE
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3. Improved statistical methodology for high-throughput omics data analysis
Abstract : Over the last two decades, the advent of high-throughput omics technology has substantially revolutionized biological and biomedical research. A large volume of omics data has been produced with the rapid development of sequencing techniques. READ MORE
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4. Exploring genetic heterogeneity in cancer using high-throughput DNA and RNA sequencing
Abstract : High-throughput sequencing (HTS) technology has revolutionised the biomedical sciences, where it is used to analyse the genetic makeup and gene expression patterns of both primary patient tissue samples and models cultivated in vitro. This makes it especially useful for research on cancer, a disease that is characterised by its deadliness and genetic heterogeneity. READ MORE
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5. Droplet microfluidics for single cell and nucleic acid analysis
Abstract : Droplet microfluidics is an emerging technology for analysis of single cells and biomolecules at high throughput. The controlled encapsulation of particles along with the surrounding microenvironment in discrete droplets, which acts as miniaturized reaction vessels, allows millions of particles to be screened in parallel. READ MORE