Artificially Controllable Nanodevices Constructed by DNA Origami Technology

Photofunctionalization and Single-Molecule Analysis

  • Yangyang Yang

Part of the Springer Theses book series (Springer Theses)

About this book

Introduction

In this book, the author deals mainly with two topics: (1) single-molecule visualization of switching behaviors in the DNA nanoframe system utilizing different kinds of molecular switches through the use of high-speed atomic force microscope (AFM); (2) construction of photocontrollable DNA nanostructures in programmed patterns and direct visualization of the dynamic assembling process. Here, high-speed AFM was employed to observe the dynamic movements of single molecules. Compared to a traditional single-molecule analysis method, such as fluorescence spectroscopy or electron microscopy, high-speed AFM makes possible the real-time observation of molecule behaviors. DNA nanostructures were designed and assembled as scaffolds to incorporate interested biomolecules. The observations were carried out under robust conditions without complicated pretreatment. Moreover, the photoresponsive molecules were successfully assembled into around 100 nm-sized DNA nanostructures. The assembly/disassembly of nanostructures can be regulated reversibly by photoirradiation. This book explains how DNA origami has gradually become a useful tool for the investigation of biochemical interactions in defined nanospace. It also shows the possibility of DNA nanostructures acting as nanodevices for application in biological systems, serving as a good introduction to basic DNA nanotechnology.

Keywords

Azobenzene DNA Nanotechnology DNA Origami High-speed AFM Photoreaction

Authors and affiliations

  • Yangyang Yang
    • 1
  1. 1.Kyoto UniversityKyotoJapan

Bibliographic information

  • DOI https://doi.org/10.1007/978-4-431-55769-2
  • Copyright Information Springer Japan 2015
  • Publisher Name Springer, Tokyo
  • eBook Packages Chemistry and Materials Science
  • Print ISBN 978-4-431-55768-5
  • Online ISBN 978-4-431-55769-2
  • Series Print ISSN 2190-5053
  • Series Online ISSN 2190-5061
  • About this book
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