[RASMB] New AUC book

Mon Nov 14 08:32:41 PST 2005

Hello All,

I bring you all good news!

The first new book for 11 years on Analytical Ultracentrifugation will be published on November 30th 2005 by the Royal Society of Chemistry (UK). You can now pre-order your copy either from reputable booksellers such as Amazon, or directly from the RSC web site:

Modern Analytical Ultracentrifugation: Techniques and Methods
Editors David J. Scott, Stephen E. Harding & Arthur J. Rowe.

http://www.rsc.org/Publishing/Books/0854045473.asp 

Book Synopsis 
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Analytical ultracentrifugation has become an increasingly important technique for monitoring the size and shape of biological macromolecules. 
Analytical Ultracentrifugation: Techniques and Methods contains contributions from experts in the field, bringing together the multitude of developments that have taken place in instrumentation and analysis over the past decade into a single volume.
This book covers the latest methods in analysis along with an extensive introduction for the novice user. Analysis methods in both sedimentation velocity and sedimentation equilibrium are discussed at length. Protein, protein/DNA, membrane proteins and polymer systems are also explored, along with software developments and non-ideality.

Book Chapter Titles:
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Modern Analytical Ultracentrifugation: Techniques and Methods
Editors David J. Scott, Stephen E. Harding & Arthur J. Rowe.

TABLE OF CONTENTS

Preface

Chapter One:
A Brief Introduction to the Analytical Ultracentrifugation of Proteins for Beginners.
D.J. Scott and P. Schuck

Chapter Two: 
Diffusion-deconvoluted sedimentation coefficient distributions for the analysis of interacting and non-interacting protein mixtures.
P. Schuck

Chapter Three: 
Models for Direct Boundary Fitting of Indefinite Ligand-Linked Self-Association.
J. J. Correia, C. A. Sontag, W. F. Stafford and P. J. Sherwood.

Chapter Four: 
Allowance for Thermodynamic Nonideality in Sedimentation Equilibrium.
P.R. Wills and D.J. Winzor

Chapter Five: 
Using analytical ultracentrifugation of DNA in CsCl gradients to explore large-scale properties of genomes.
O. Clay, N. Carels, C.J. Douady and G. Bernardi.

Chapter Six: 
Lammnum: a program to study self-associating macromolecules in sedimentation velocity experiments.
J. Behlke and O. Ristau    

Chapter Seven: 
Correcting for the Buoyancy of Macromolecules; Density Increments and Apparent Partial Specific Volumes with particular reference to the study of membrane proteins.
P.J.G. Butler and C.G. Tate

Chapter Eight: 
Application of Weighted Robust Regression to Equilibrium Ultracentrifugation. 
M.S. Lewis and M.M. Reily

Chapter Nine: 
The Synthetic Boundary Technique of Analytical Ultracentrifugation: A Valuable Tool to Study Structure Formation Processes Online
C. Wandrey and L. Bourdillon

Chapter Ten: 
Protein-DNA Interactions Studied at Sedimentation Equilibrium 
M.A. Daugherty and M.G. Fried.

Chapter Eleven: 
UltraScan * A Comprehensive Data Analysis Software Package for Analytical Ultracentrifugation Experiments.
B. Demeler

Chapter Twelve: 
Analysis of polysaccharide size, shape and interactions
S.E. Harding

Chapter Thirteen: 
Analytical ultracentrifugation as a key complementary technique in structural biology.
R.J.C. Gilbert

Chapter Fourteen: 
Introduction to Differential Sedimentation 
I. Laidlaw and M. Steinmetz

Chapter Fifteen: 
Relating Small Angle Scattering and Analytical Ultracentrifugation in Multidomain Proteins.
S.J. Perkins, H.E. Gilbert, Y.C. Lee, Z. Sun and P.B. Furtado.

Chapter Sixteen: 
Modelling of Biopolymers
P. Zipper, H. Durchschlag and A. Krebs

Chapter Seventeen: 
Fitting of Thermodynamic Data from Equilibrium Ultracentrifugation by Stable Least-Squares with Reduced Parameter Cross-Correlation Coefficients
M.S. Lewis, M.M. Reily and L.A. Holladay

Chapter Eighteen: 
Calculation of Volume, Surface, and Hydration Properties of Biopolymers
H. Durchschlag and P. Zipper

Chapter Nineteen: 
Analysis of membrane proteins using analytical ultracentrifugation
K.G. Fleming

Chapter Twenty: 
Solution properties of flexible macromolecules: Theoretical and computational approaches
J.Garcia de la Torre, A. Ortega and H. E. Perez Sanchez

Chapter Twenty One: 
The ELLIPS suite of whole-body protein conformation algorithms for Microsoft WINDOWS
S.E. Harding, H. Cölfen and Z. Aziz

Chapter Twenty Two: 
Weak interactions: optimal algorithms for their study in the AUC.
A.J. Rowe

Chapter Twenty Three: 
Analytical Ultracentrifugation of Colloids
H. Cölfen

Enjoy!

d.

Dr. David J. Scott
Lecturer in Physical Biochemistry
National Centre for Macromolecular Hydrodynamics
School of Biosciences
University of Nottingham
Sutton Bonington
Leicestershire
LE12 5RD
Phone: +44 (0) 115 951 6221
Fax: +44 (0) 115 951 6142
Email: dj.scott at nottingham.ac.uk
http://www.nottingham.ac.uk/biosciences/foodsci/academic/scott.html 

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