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Magnetic tweezers for the study of protein structure and function
Title
Magnetic tweezers for the study of protein structure and function / edited by Min Ju Shon, Tae-Young Yoon.
ISBN
9780443222290
0443222290
Publication
Cambridge, MA : Academic Press, 2024.
Copyright Notice Date
©2024
Physical Description
1 online resource (xviii, 354 pages) : illustrations.
Local Notes
Access is available to the Yale community.
Access and use
Access restricted by licensing agreement.
Summary
"Volume 694 in Methods in Enzymology brings together a comprehensive collection of methods and reviews from leading experts, exploring the various applications of magnetic tweezers technology. It covers a wide spectrum of research, from fundamental principles to advanced applications like analyzing protein-protein interactions, DNA mechanics, and protein folding. Readers will encounter cutting-edge methods for detailed manipulation and observation of single molecules, emphasizing the role of mechanical forces in structural changes."--Preface.
Variant and related titles
Elsevier ScienceDirect All Books. OCLC KB.
Format
Books / Online
Language
English
Added to Catalog
April 09, 2024
Series
Methods in enzymology ; volume 694
Bibliography
Includes bibliographical references at the end of each chapter.
Contents
May the force be with proteins
Magnetic tweezers principles and promises
Use of DNA forceps to measure receptor-ligand dissociation equilibrium constants in a single-molecule competition assay
Construction and operation of high-resolution magnetic tape head tweezers for measuring single-protein dynamics under force
High-speed measurements of SNARE-complexin interactions using magnetic tweezers
Force-fluorescence setup for observing protein-DNA interactions under load
Integrating magnetic tweezers and single-molecule FRET : a comprehensive approach to studying local and global conformational changes simultaneously
Horizontal magnetic tweezers and its applications in single molecule micromanipulation experiments
Magnetic tweezers characterization of the entropic elasticity of intrinsically disordered proteins and peptoids
Exploring the free energy landscape of proteins using magnetic tweezers
Single-molecule tethering methods for membrane proteins
Robust magnetic tweezers for membrane protein folding studies
Magnetic nano-tweezer for interrogating mechanosensitive signaling proteins in space and time
Magnetic tweezers in cell mechanics.
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