Search for dissertations about: "Molecular Probe Techniques"
Showing result 1 - 5 of 100 swedish dissertations containing the words Molecular Probe Techniques.
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1. Development of molecular techniques for fungal diagnostic research
Abstract : Fungi are present everywhere in indoor and outdoor environments. Many fungi are toxigenic or pathogenic that may cause various public health concerns. Rapid detection, quantification and characterization of fungi in living and working environments are essential for exposure risk assessment to safe guard public health. READ MORE
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2. Application of Padlock Probe Based Nucleic Acid Analysis In Situ
Abstract : The great variation displayed by nucleic acid molecules in human cells, and the continuous discovery of their impact on life, consequently require continuous refinements of molecular analysis techniques. Padlock probes and rolling circle amplification offer single nucleotide discrimination in situ, a high signal-to-noise ratio and localized detection within cells and tissues. READ MORE
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3. Padlock Probe-Based Nucleic Acid Amplification Tests : Point-of-care Diagnostics of Infectious Diseases
Abstract : Recent advancements in molecular biology and biotechnology have pushed the field of molecular diagnostics much further to benefit the society towards smart access for rapid and simplified health care. In this context, point-of-care (PoC) technologies that bring the inventions in diagnostics closer to bedside settings draw attention. READ MORE
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4. Proximity Ligation as a Universal Protein Detection Tool
Abstract : Among the great challenges in biology are the precise quantification of specific sets of proteins and analyses of their patterns of interaction on a much larger scale than is possible today.This thesis presents a novel protein detection technique - proximity ligation - and reports the development and application of a nucleic acid amplification technique, RCA. READ MORE
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5. Ligation-mediated Molecular Analysis of Influenza Subtypes, Splicing and Protein Glycosylation
Abstract : Binder-based assays are employed throughout the life sciences. Powerful signal amplification techniques have enabled detection of very rare molecule species diluted in simple buffers. Unspecific binding of primary binders leads to increased background in more complex samples. READ MORE