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Please use this identifier to cite or link to this item: http://hdl.handle.net/11375/28799
Title: FUNCTIONAL NUCLEIC ACIDS AS KEY COMPONENTS IN BIOSENSORS
Authors: Qian, Shuwen
Advisor: Li, Yingfu
Department: Biochemistry and Biomedical Sciences
Keywords: DNAzyme;Aptamer;Functional nucleic acids;Biosensor;Bacterial detection
Publication Date: 2023
Abstract: The functionality of nucleic acids beyond genetics has attracted more attention over the past decades. Functional nucleic acids (FNA), including aptamers and nucleic acid-based enzymes, are well-known for their target binding and reaction catalysis abilities. FNA can be obtained through a technology called in vitro selection, which allows the isolation of customized FNA for various applications. In particular, FNA have received much interest in biosensing application. Their wide range of sensing targets, intrinsic stability, and high specificity have qualified them as the molecular recognition element in biosensors. This thesis explored the utilization of FNA to tackle real-world biosensing challenges, especially for pathogenic bacteria detection. The first project aimed to make the most use of in vitro selection to derive FNA that can meet the requirements of terminal applications. A few feasible approaches were proposed based on lessons from Mother Nature and validated by innovative scientist pioneers. In the second research project, I characterized an RNA-cleaving DNAzyme for Clostridium difficile infection diagnosis. This DNAzyme displayed high sensitivity and specificity for clinical C. difficile strains, making it a competitive candidate for a potential point-of-care diagnostic tool. In the next chapter, I incorporated a Legionella pneumophila-responsive RNA-cleaving DNAzyme into a bead-based assay for practical on-site detection. This assay exhibited a high stability and functionality in the cooling tower water samples, the real-world application environment. The following chapter was to optimize this assay further with a coupled rolling circle amplification strategy. This additional amplification speeded up the detection process, improved the limit of detection, and enabled the colorimetric results that are observable to the naked eye. These research aimed to advance the practical applications of FNA as key components in biosensors. I hope readers find this thesis insightful and inspirational for the development of the FNA field.
URI: http://hdl.handle.net/11375/28799
Appears in Collections:Open Access Dissertations and Theses

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