Atomic Force Microscopy In Nanobiology by Kunio TakeyasuAtomic Force Microscopy In Nanobiology by Kunio Takeyasu

Atomic Force Microscopy In Nanobiology

EditorKunio Takeyasu

Hardcover | December 5, 2014

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Recent developments in atomic force microscopy (AFM) have been accomplished through various technical and instrumental innovations, including high-resolution and recognition imaging technology under physiological conditions, fast-scanning AFM, and general methods for cantilever modification and force measurement. All these techniques are now highly powerful not only in material sciences but also in basic biological sciences. There are many nanotechnology books that focus on materials, instruments, and applications in engineering and medicine, but only a few of them are directed toward basic biological sciences. This book tries to bridge this gap.

Edited by a prominent researcher, this volume provides an overview of modern AFM technologies: the basic AFM protocols in Part I, newly developed technologies in Part II, and the most recent applications of AFM technologies in biological sciences in Parts III and IV. The chapters are contributed by some of the leading scientists in the field of nanobiology.

Kunio Takeyasuwas trained as a zoologist and neuro-pharmacologist in his early career when he was a graduate student at Hiroshima University and Osaka University. After his postdoctoral research on the molecular and cell biological aspects of membrane proteins such as acetylcholine receptors and ion-motive ATPases at Cornell University...
Title:Atomic Force Microscopy In NanobiologyFormat:HardcoverDimensions:458 pages, 9.02 × 5.98 × 0.98 inPublished:December 5, 2014Publisher:Taylor and FrancisLanguage:English

The following ISBNs are associated with this title:

ISBN - 10:9814411582

ISBN - 13:9789814411585

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Table of Contents

Basics for AFM.A Short Story of AFM in Biology. Protocols for Specimen and Substrate Preparation, and Data Correction Methods. Chemical Modification of AFM Probe and Coupling with Biomolecules. Single Molecule Dissection and Isolation Based on AFM Nano-Manipulations.Development of AFM Technology: Imaging Dynamics and Complexities. Structural Biology with Cryo AFM and Computational Modeling. Development of Non-Contact High-Resolution AFM and its Biological Applications. Development of Recognition Imaging ' From Molecule to Cells. Development of High-Speed AFM and Its Biological Applications. Real-Time AFM Combined with an Inverted Optical Microscope for Wetcell/Tissue Imaging.Imaging Membranes, Proteins and DNA.AFM imaging of Cells (Fixed and Living) and of Particularcellular Organelles and Compartments. Determination of the Architecture of Multi-Subunit Proteins Using AFM Imaging. Capturing Membrane Proteins at Work. Enzymes and DNA: Molecular Motors in Action. Genome Folding Mechanisms in the Three Domains of Life Revealed by AFM Imaging.Imaging, Force Spectroscopy and Physiology.Membrane Dynamics: Lipid-Protein Interaction Studied by AFM. Nano Surgery and Cytoskeletal Mechanics of Single Cell. Functional Investigations on Nuclear Pores with Atomic Force Microscopy. Mechanotransduction: Probing its Mechanisms at the Nanoscale using the Atomic Force Microscope.