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Demonstration of correlative atomic force and transmission electron microscopy using actin cytoskeleton

  • Published:2017 Issue:0 Volume:14 Page:111-117
  • ISSN:2189-4779
  • Container-title:Biophysics and Physicobiology
  • language:en
  • Short-container-title:BIOPHYSICS

Author:

Yamada Yutaro12,Konno Hiroki3,Shimabukuro Katsuya1

Affiliation:

1. Department of Chemical and Biological Engineering, National College of Technology, Ube College

2. Present address: Graduate School of Natural Science & Technology, Kanazawa University

3. Bio-AFM Frontier Research Center, Kanazawa University

Publisher

Biophysical Society of Japan

Subject

General Medicine

Reference15 articles.

1. [3] Kodera, N., Yamamoto, D., Ishikawa, R. & Ando, T. Video imaging of walking myosin V by high-speed atomic force microscopy. Nature 468, 72–76 (2010).

2. [4] Shibata, M., Yamashita, H., Uchihashi, T., Kandori, H. & Ando, T. High-speed atomic force microscopy shows dynamic molecular processes in photoactivated bacteriorhodopsin. Nat. Nanotechnol. 5, 208–212 (2010).

3. [5] Uchihashi, T., Iino, R., Ando, T. & Noji, H. High-speed atomic force microscopy reveals rotary catalysis of rotorless F1-ATPase. Science 333, 755–758 (2011).

4. [6] Uchihashi, T., Watanabe, H., Fukuda, S., Shibata, M. & Ando, T. Functional extension of high-speed AFM for wider biological applications. Ultramicroscopy 160, 182–196 (2016).

5. [8] Nishida, S., Funabashi, Y. & Ikai, A. Combination of AFM with an objective-type total internal reflection fluorescence microscope (TIRFM) for nanomanipulation of single cells. Ultramicroscopy 91, 269–274 (2002).
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