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The World of Nano-Biomechanics

Fully revised and expanded new edition based on the latest research and developments in the field

Atsushi Ikai (Author)

9780444636867

Paperback, published 22 November 2016

340 pages
22.9 x 15.1 x 2.2 cm, 0.38 kg

The World of Nano-Biomechanics, Second Edition, focuses on the remarkable progress in the application of force spectroscopy to molecular and cellular biology that has occurred since the book's first edition in 2008. The initial excitement of seeing and touching a single molecule of protein/DNA is now culminating in the development of various ways to manipulate molecules and cells almost at our fingertips, enabling live cell operations.

Topics include the development of molecular biosensors, mechanical diagnosis, cellular-level wound healing, and a look into the advances that have been made in our understanding of the significance of mechanical rigidity/flexibility of protein/DNA structure for the manifestation of biological activities.

The book begins with a summary of the results of basic mechanics to help readers who are unfamiliar with engineering mechanics. Then, representative results obtained on biological macromolecules and structures, such as proteins, DNA, RNA, polysaccharides, lipid membranes, subcellular organelles, and live cells are discussed. New to this second edition are recent developments in three important applications, i.e., advanced AFM-data analysis, high-resolution mechanical biosensing, and the use of cell mechanics for medical diagnosis.

1. Force in Biology2. Introduction to Basic Mechanics3. Force Measurement and Mechanical Imaging Apparatuses4. Interaction Forces5. Polymer Chain Mechanics6. Analysis of Data Gleaned by Atomic-Force Microscopy7. Single–Molecular Interaction8. Single-Molecule DNA and RNA Mechanics9. Single-Molecule Protein Mechanics10. Nanomechanics of Motion-Supporting Molecular Systems11. Finite-Element Analysis of Microbiological Structures12. Nanomechanical Bases of Cell Structure13. Nanorheology of Living Cells14. Molecular and Cellular Manipulations for Future Nanomedicine

Subject Areas: Biophysics [PHVN]

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