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This book examines the successful application of single-molecule techniques to a wide range of biological events. It explores sophisticated advances in powerful new analytical, computational, and imaging methods.
In Single Molecule Studies of Proteins , expert researchers discuss the successful application of single-molecule techniques to a wide range of biological events, such as the imaging and mapping of cell surface receptors, the analysis of the unfolding and folding pathways of single proteins, the analysis interaction forces between biomolecules, the study of enzyme catalysis or the visualization of molecular motors in action. The chapters are aimed at established investigators and post-doctoral researchers in the life sciences wanting to pursue research in the various areas in which single-molecule approaches are important; this volume also remains accessible to advanced graduate students seeking similar research goals.
Explores sophisticated advances in powerful new analytical, computational, and imaging methods Cover ways in which single-molecule methods can be applied to studying protein function Lays the foundation for additional research to monitor processes within living cells at high resolution and define the complex networks of interactions which regulate cellular function Includes supplementary material: sn.pub/extras
Texte du rabat
Single-molecule measurement techniques are providing fundamental information on the structure and function of biomolecules and are becoming an indispensable tool to understand how proteins work. During the last two decades, this field has grown at an almost exponential rate in terms of biological and biophysical applications. Single-molecule techniques have opened new fields of science that are at the crossroads of several disciplines such as biology, physics, chemistry, material science and computer science. These methods are often the approach of choice to clarify and better understand the structure and function of single proteins. This volume consists of up-to-date and comprehensive reviews of important and timely applications of different biological problems tackled by single-molecule methods; it also covers basic principles of operation, experiment and theory.
In Single-molecule Studies of Proteins, expert researchers discuss the successful application of single-molecule techniques to a wide range of biological events, such as the imaging and mapping of cell surface receptors, the analysis of the unfolding and folding pathways of single proteins, the analysis interaction forces between biomolecules, the study of enzyme catalysis or the visualization of molecular motors in action. The chapters are aimed at established investigators and post-doctoral researchers in the life sciences wanting to pursue research in the various areas in which single-molecule approaches are important; this volume also remains accessible to advanced graduate students seeking similar research goals.
Résumé
In Single Molecule Studies of Proteins, expert researchers discuss the successful application of single-molecule techniques to a wide range of biological events, such as the imaging and mapping of cell surface receptors, the analysis of the unfolding and folding pathways of single proteins, the analysis interaction forces between biomolecules, the study of enzyme catalysis or the visualization of molecular motors in action. The chapters are aimed at established investigators and post-doctoral researchers in the life sciences wanting to pursue research in the various areas in which single-molecule approaches are important; this volume also remains accessible to advanced graduate students seeking similar research goals.
Contenu
Nanomechanics of proteins, both folded and disordered.- Force Spectroscopy and Recognition Imaging of Cells from the Immune System.- Catch bonds of integrin/ligand interactions.- AFM visualization of protein-DNA interactions.- Nano-visualization of proteins in action using high-speed AFM.- Enzyme catalysis at the single-molecule level.- Single-molecule studies of amyloidogenic proteins.- Stretching and Imaging Individual Proteins on Live Cells using Atomic Force Microscopy.- Individual proteins under mechanical stress: Lessons from theory and computer simulations.
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