Crystals, X-Rays and Proteins: Comprehensive Protein Crystallography

ISBN : 9780198726326

Dennis Sherwood; Jon Cooper
656 Pages
247 x 171 mm
Pub date
Mar 2015
Send mail

A complete account of the theory of the diffraction of X-rays by crystals, with particular reference to the processes of determining the structures of protein molecules. This book is aimed primarily at structural biologists and biochemists but will also be valuable to those entering the field with a background in physical sciences or chemistry. It may be used at any post-school level, and develops from first principles all relevant mathematics, diffraction and wave theory, assuming no mathematical knowledge beyond integral calculus. The book covers a host of important topics in the area, including: - The practical aspects of sample preparation and X-ray data collection, using both laboratory and synchrotron sources - Data analysis at both theoretical and practical levels - The important role played by the Patterson function in structure analysis, by both molecular replacement and experimental phasing approaches - Methods for improving the resulting electron density map - The theoretical basis of methods used in refinement of protein crystal structures - In-depth explanation of the crucial task of defining the binding sites of ligands and drug molecules - The complementary roles of other diffraction methods: these reveal further detail of great functional importance in a crystal structure.


1. The crystalline state and its study
2. Vector analysis and complex algebra
3. Crystal systematics
4. Waves and electromagnetic radiation
5. Fourier transforms and convolutions
6. Diffraction
7. Diffraction by one-dimensional obstacles
8. Diffraction by a three-dimensional lattice
9. The contents of the unit cell
10. Experimental techniques: sample preparation
11. Experimental techniques: data collection and analysis
12. The phase problem and the Patterson function
13. Molecular replacement
14. Solving the phase problem experimentally
15. Model-building and refinement
16. Complementary diffraction methods

About the author: 

Dennis Sherwood read Natural Sciences as a scholar at Clare College, Cambridge, and subsequently won a Mellon Fellowship to the Department of Molecular Biophysics and Biochemistry at Yale University (MPhil), and a Calbiochem Scholarship to the University of California at San Diego (PhD). After a brief period as an ICI Post-doctoral Fellow at the University of Sussex, Dennis changed career, and joined Deloitte Haskins & Sells as a trainee consultant, and where, for 12 years, he was a consulting partner. Dennis was subsequently an Executive Director with Goldman Sachs, a partner in Bossard Consultants, and Managing Director in the UK of SRI Consulting. Dennis now runs his own business, The Silver Bullet Machine Manufacturing Company Limited , which specialises in organizational creativity and innovation. Dennis participates in a number of academic programmes at institutions such as London Business School, the London School of Economics, the University of St Gallen, and London South Bank University.; Jon Cooper is a Professor of Structural Biology at UCL Department of Medicine who specialises in expression and X-ray structure analysis of proteins. Previously he was based in the School of Biological Sciences at the University of Southampton where he taught biochemistry and structural biology on undergraduate programmes and at the post-graduate level. He has been working in the protein crystallography field since the mid-1980s when he started a PhD at Birkbeck College London where he later became a post-doctoral fellow and subsequently a lecturer. He is a member of Biological Structures Group of the British Crystallographic Association (BCA) and has been a tutor at the BCA Protein Crystallography Summer School.

The price listed on this page is the recommended retail price for Japan. When a discount is applied, the discounted price is indicated as “Discount price”. Prices are subject to change without notice.