Biophysical Techniques
- Length: 484 pages
- Edition: 1
- Language: English
- Publisher: Oxford University Press
- Publication Date: 2012-10-25
- ISBN-10: 0199642141
- ISBN-13: 9780199642144
- Sales Rank: #353052 (See Top 100 Books)
Many current questions in biology are probed by using a range of biophysical methods, often in tandem. These increasingly powerful and sophisticated tools allow us to study the structure and dynamics of the complicated mixture of interacting molecules that make up the living cell.
Biophysical Techniques explains in a readily accessible way the basics of the various methods available–including those used to study molecular structure, cell structure, and dynamic interactions–so that students can understand the principles behind the different methods used, and begin to appreciate which tools can be used to probe different biological questions, and the pros and cons of each.
Exploring the latest enhancements to classical techniques, and introducing computational techniques that have emerged relatively recently, the book provides a broad survey of the range of techniques now at the disposal of an investigator.
The biophysical techniques introduced can be explained in physical and mathematical terms; instead of assuming a detailed knowledge of physics or math, however, the book uses a series of tutorials and boxes to provide essential background guidance on these topics, giving students extra support in fully understanding the subject. Learning and understanding is supported still further with thought-provoking end-of-chapter problems, and a range of online journal clubs, to illustrate to students how a range of biophysical techniques have been used in contemporary research.
In an age where we are probing the working of biological systems in more detail than ever before, Biophysical Techniques is the ideal guide for any student who needs to understand the power of biophysical techniques in biological research.
Table of Contents
Chapter 1 Introduction
Chapter 2 Molecular Principles
Chapter 3 Transport And Heat
Chapter 4 Scattering, Refraction, And Diffraction
Chapter 5 Electronic And Vibrational Spectroscopy
Chapter 6 Magnetic Resonance
Chapter 7 Microscopy And Single Molecule Studies
Chapter 8 Computational Biology
Chapter 9 Tutorials