Search for dissertations about: "single cell pcr"
Showing result 1 - 5 of 120 swedish dissertations containing the words single cell pcr.
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1. 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
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2. Giant cell arteritis. Epidemiological, morphological and molecular genetic studies
Abstract : Giant cell arteritis (GCA) is a chronic inflammatory disorder of unknown etiology, affecting large and medium-sized arteries, predominantly in postmenopausal women. Its pathogenesis is probably multifactorial. Several studies suggest that GCA is an antigen-driven disease. READ MORE
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3. Droplet Microfluidics reverse transcription and PCR towards Single Cell and Exosome Analysis
Abstract : Miniaturization of biological analysis is a trend in the field of biotechnology aiming to increase resolution and sensitivity in biological assays. Decreasing the reaction volumes to analyze fewer analytes in each reaction vessel enables the detection of rare analytes in a vast background of more common variants. READ MORE
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4. Detection and Sequencing of Amplified Single Molecules
Abstract : Improved analytical methods provide new opportunities for both biological research and medical applications. This thesis describes several novel molecular techniques for nucleic acid and protein analysis based on detection or sequencing of amplified single molecules (ASMs). READ MORE
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5. Quantification of gene expression in single cells
Abstract : Studies of apparently homogeneous cell populations and single cells often give highly divergent results. Cells exhibit varying responsiveness to stimuli and gene expression and they are in many aspects stochastic and unpredictable. We have developed a method to measure gene expression quantitatively in individual cells with real-time RT-PCR. READ MORE