By Yangyang Yang
In this publication, the writer bargains regularly with themes: (1) single-molecule visualization of switching behaviors within the DNA nanoframe process using other forms of molecular switches by utilizing high-speed atomic strength microscope (AFM); (2) development of photocontrollable DNA nanostructures in programmed styles and direct visualization of the dynamic assembling method. right here, high-speed AFM was once hired to watch the dynamic activities of unmarried molecules. in comparison to a conventional single-molecule research process, reminiscent of fluorescence spectroscopy or electron microscopy, high-speed AFM makes attainable the real-time remark of molecule behaviors. DNA nanostructures have been designed and assembled as scaffolds to include biomolecules. The observations have been conducted lower than strong stipulations with out advanced pretreatment. additionally, the photoresponsive molecules have been effectively assembled into round a hundred nm-sized DNA nanostructures. The assembly/disassembly of nanostructures may be regulated reversibly via photoirradiation. This booklet explains how DNA origami has progressively develop into a great tool for the research of biochemical interactions in outlined nanospace. It additionally indicates the potential for DNA nanostructures appearing as nanodevices for software in organic structures, serving as an excellent advent to uncomplicated DNA nanotechnology.
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Extra info for Artificially Controllable Nanodevices Constructed by DNA Origami Technology: Photofunctionalization and Single-Molecule Analysis (Springer Theses)
Artificially Controllable Nanodevices Constructed by DNA Origami Technology: Photofunctionalization and Single-Molecule Analysis (Springer Theses) by Yangyang Yang