Search for dissertations about: "biomolecular recognition"
Showing result 11 - 15 of 19 swedish dissertations containing the words biomolecular recognition.
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11. Structure analysis and molecular recognition studies of bio-functionalized surfaces
Abstract : Biological and chemical reactions involved in physiological processes are often complex and very sophisticated. Such processes can be mimicked in the laboratory to obtain important knowledge, valuable for the development of new diagnostic methods, drugs and biosensors. READ MORE
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12. Biomolecular Analysis by Dual-Tag Microarrays and Single Molecule Amplification
Abstract : Padlock probes and proximity ligation are two powerful molecular tools for detection of nucleic acids and proteins, respectively. Both methods result in the formation of DNA reporter molecules upon recognition of specific target molecules. READ MORE
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13. Conjugated polyelectrolytes : conformation sensitive optical probes for the recording of biological processes
Abstract : The physical properties of conjugated polymers can be utilized for a wide range of biosensors. For instance, the conformational flexibility fouud in conjugated polyelectrolytes, allows direct connection between the geometry of chains and the resulting electronic structure and optical processes, since the extension of the π-conjugated system is distorted by conformational changes of the polyelectrolyte backbone. READ MORE
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14. Detection of Biomolecules Using Volume-Amplified Magnetic Nanobeads
Abstract : This thesis describes a new approach to biomolecular analysis, called the volume-amplified magnetic nanobead detection assay (VAM-DNA). It is a sensitive, specific magnetic bioassay that offers a potential platform for the development of low-cost, easy-to-use diagnostic devices. READ MORE
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15. Development and Application of Molecular Modeling Methods for Structure-Based Drug Discovery
Abstract : Molecular modeling is increasingly being integrated into the drug discovery process. Although computational methods are already an essential part of the process today, these techniques have vast potential to evolve and refine drug design in the future. READ MORE