Overview

During the last decade, a number of novel biophysical methods have been developed that allow the manipulation and study of individual biomolecules. The ability to monitor biological processes at the fundamental level of sensitivity, that of a single molecule, has given rise to an improved understanding of the underlying molecular mechanisms. Through the removal of ensemble averaging, distributions and fluctuations of molecular properties can be characterized, transient intermediates identified, and catalytic mechanisms elucidated. By applying forces on biomolecules while monitoring their activity, important information can be obtained on how proteins couple function to structure. The Handbook of Single-Molecule Biophysics provides an introduction to these techniques and presents an extensive discussion of the new biological insights obtained from them. Editorial Advisory Board: Daniel Müller, Cheng Zhu, Claus Seidel, Xiaowei Zhuang, Thomas Schmidt, Nynke Dekker.

Full Product Details

Author:   Peter Hinterdorfer ,  Antoine van Oijen
Publisher:   Springer-Verlag New York Inc.
Imprint:   Springer-Verlag New York Inc.
Edition:   2009 ed.
Dimensions:   Width: 15.50cm , Height: 3.30cm , Length: 23.50cm
Weight:   1.434kg
ISBN:  

9780387764962

ISBN 10:   0387764968
Pages:   626
Publication Date:   24 July 2009
Audience:   College/higher education ,  Professional and scholarly ,  Undergraduate ,  Postgraduate, Research & Scholarly
Format:   Hardback
Publisher's Status:   Active
Availability:   In Print  
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Table of Contents

Chapter 1 - Single-molecule fluorescence tracking Ahmet Yildiz (UCSF) Chapter 2 - Single molecule studies in the membrane Gerhard Schuetz (Linz) Thomas Schmidt (Leiden) Chapter 3 - Single-molecule imaging in live cells Jie Xiao (Johns Hopkins) Chapter 4 - Superresolution imaging Xiaowei Zhuang (Harvard) Chapter 5 - Fluorescence Resonance Energy Transfer Achillefs Kapanidis (Oxford) Chapter 6 - Single-molecule enzymology Antoine van Oijen (Harvard) Chapter 7 - Rotary proteins Richard Berry (Oxford) Chapter 8 - Fluorescence Correlation Spectroscopy Petra Schwille (Dresden) Chapter 9 - Advanced Concepts of Fluorescence Fluctuation Spectroscopy Joerg Enderlein (Tubingen) Chapter 10 - Nucleic-acid analysis at the single-molecule level Amit Meller (Boston University) Chapter 11 - Nanopores: Geneneration and Single-Molecule Applications Stefan Howorka (UCL) Zuzanna Siwy (UC-Irvine) Chapter 12 - Optical trapping Michael Woodside (Alberta) Megan Valentine (UCSB) Chapter 13 - Magnetic tweezing Nynke Dekker (Delft) Chapter 14 - Protein/DNA unfolding Matthias Rief (Munich) Chapter 15 - Single molecule recognition Ziv Reich (Weizman) Peter Hinterdorfer (Linz) Chapter 16 - Nano-scale AFM imaging Simon Scheuring (Institut Curie) Daniel J. Muller (Dresden) Chapter 17 - High Speed AFM T. Ando (Kanazawa) Chapter 18 - Recognition imaging Yves Dufrene (Leuven) Peter Hinterdorfer (Linz) Chapter 19 - Atomic force microscopy of protein-protein interactions Vincent Moy (Miami) Chapter 20 - A New Approach to Analysis of Single MoleculeForce Measurements Evan Evans (Vancouver) Chapter 21 - Single Molecule Recognition: Extracting Information from Individual Binding Events and Their Correlation Cheng Zhu (Georgia Tech)

Reviews

From the reviews: The Handbook of Single-Molecule Biophysics, edited by Hinterdorfer (Johannes Kepler Univ. of Linz, Austria) and van Oijen (Harvard Medical School), contains 21 chapters that address various aspects of techniques used to investigate single-molecule biophysics. The chapters, many authored by leading experts in their respective fields, cover specialized biophysical techniques, their applications, background into the technical design, and practical aspects of implementing these approaches. ... Summing Up: Recommended. Graduate students, researchers, faculty, and professionals. (C. A. Reinhart-King, Choice, Vol. 47 (10), June, 2010)

From the reviews: The Handbook of Single-Molecule Biophysics, edited by Hinterdorfer (Johannes Kepler Univ. of Linz, Austria) and van Oijen (Harvard Medical School), contains 21 chapters that address various aspects of techniques used to investigate single-molecule biophysics. The chapters, many authored by leading experts in their respective fields, cover specialized biophysical techniques, their applications, background into the technical design, and practical aspects of implementing these approaches. ! Summing Up: Recommended. Graduate students, researchers, faculty, and professionals. (C. A. Reinhart-King, Choice, Vol. 47 (10), June, 2010)

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