The World of Nano-Biomechanics ：Mechanical Imaging and Measurement by Atomic Force Microscopy

Publication subTitle ：Mechanical Imaging and Measurement by Atomic Force Microscopy

Author： Ikai Atsushi

Publisher： Elsevier Science‎

Publication year： 2007

E-ISBN: 9780080556048

P-ISBN(Paperback): 9780444527776

P-ISBN(Hardback): 9780444527776

Subject： Q5 Biochemistry;Q6 Biophysics

Language： ENG

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Description

By using nanotechnological methods, we can now poke around protein molecules, genes, membranes, cells and more. Observation of such entities through optical and electron microscopes tempt us to touch and manipulate them. It is now possible to do so, and scientists around the world have started pulling, pushing and cutting small structures at the base of life processes to understand the effect of our hand work.

The book describes the physical properties of such life supporting structures from the molecular level with a special emphasis on their designs based on the mechanical strength and flexibility, membrane and other biological nanostructures.

- Describes the basic mechanical features of proteins, DNA, cell membrane and other biological nanostructures
- Explains the basic concepts and mathematics of elementary mechanics needed to understand and perform experimental work

Chapter

Front Cover

pp.： 1 – 4

The World of Nano-Biomechanics

pp.： 4 – 5

pp.： 5 – 6

Table of Contents

pp.： 6 – 12

Contributors

pp.： 12 – 14

Preface

pp.： 14 – 18

Chapter 1. Force in Biology

pp.： 18 – 40

Chapter 2. Introduction to Basic Mechanics

pp.： 40 – 60

Chapter 3. Force and Force Measurement Apparatuses

pp.： 60 – 86

Chapter 4. Polymer Chain Mechanics

pp.： 86 – 106

Chapter 5. Interaction Forces

pp.： 106 – 122

Chapter 6. Single-Molecular Interaction Forces

pp.： 122 – 144

Chapter 7. Single-molecule DNA and RNA Mechanics

pp.： 144 – 154

Chapter 8. Single-molecule Protein Mechanics

pp.： 154 – 190

Chapter 9. Motion in Nano-biology

pp.： 190 – 202

Chapter 10. Cell Mechanics

pp.： 202 – 226

Chapter 11. Manipulation at the Molecular Level

pp.： 226 – 238

Chapter 12. Finite Element Analysis of Microscopic Biological Structures

pp.： 238 – 262

Appendix 1. Beam Bending

pp.： 262 – 278

Appendix 2. V-shaped Cantilever

pp.： 278 – 280

Appendix 3. Persistence Length and Kuhn Statistical Segment

pp.： 280 – 282

Appendix 4. Hertz Model

pp.： 282 – 294

Index

pp.： 294 – 302

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