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dc.contributor.authorXu, Junpeng
dc.date.accessioned2023-05-16T17:19:39Z
dc.date.available2023-05-16T17:19:39Z
dc.identifier.urihttp://hdl.handle.net/10464/17815
dc.description.abstractDNA has been used in nature as carriers of heredity information for billions of years. The last four decades have witnessed the success of DNA nanotechnology, an interdisciplinary research area in which DNA is used as a synthetic engineering tool rather than a carrier of genetic information. The growth of DNA nanotechnology crosses the boundaries between physics, chemistry, biology and computer science and enables DNA to function as an electronic component, substrate, drug delivery vector and data storage unit. The hybridization of DNA strictly follows the by Watson-Crick rule; thus, DNA base pairs are the most reliable and predictable building block in the true nanometer range. New methods and designs for controlling DNA hybridization have always provided the most essential momentum for the development of DNA nanotechnology. When small molecules bind to the double helical structure of DNA, either through intercalation or minor groove binding, the stability and functionality of DNA may be significantly altered, which is a fundamental basis for many therapeutic and sensing applications. Herein, we reveal, for the first time, that small molecular DNA binders may also be used to program the reaction pathways of toehold-mediated DNA strand displacement, an elementary building block in DNA nanotechnology.en_US
dc.language.isoengen_US
dc.publisherBrock Universityen_US
dc.subjectDynamic DNA nanotechnology, small DNA binders, high-throughput screeningen_US
dc.titlePrograming strand displacement reaction pathways using small molecular DNA bindersen_US
dc.typeElectronic Thesis or Dissertationen_US
dc.degree.namePh.D. Chemistryen_US
dc.degree.levelDoctoralen_US
dc.contributor.departmentDepartment of Chemistryen_US
dc.degree.disciplineFaculty of Mathematics and Scienceen_US
refterms.dateFOA2023-05-13T00:00:00Z


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