Single Molecules and Nanotechnology

The investigation of molecules as individuals has grown rapidly in recent years, and in the process has uncovered molecular properties not normally accessible by ensemble experiments. In particular, the direct characterization of biologically important molecules such as enzymes, molecular motors, or receptors and entire signaling complexes in action, for example in a live biological cell, yielded un- pected insights. Common approaches for studying single molecules include the electrical detection of ion channels in membranes, the measurement of the dynamics of (bio)chemical reactions between individual molecules, the imaging of individual molecules by scanning probe techniques or by fluorescence correlation spectr- copy, and the direct monitoring of single molecules by optical microscopies, to mention a few. The application of these techniques in physics, chemistry, and bi- ogy has opened new areas of nanotechnology. This book provides a representative selection of recent developments in the rapidly evolving field of single molecule techniques of importance in life sciences and will have future impact on the quan- tative description of biological processes. The editors of this book hope that the chapters, written by leading scientists in the field, will attract students and scientists from different disciplines, provide them with an authentic insight into this young field of research, allow them to evaluate experimental methods and results, and thereby give them support for their own research. Lausanne Rudolf Rigler September 2007 Horst Vogel v Contents 1 Nanophotonics and Single Molecules. . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 W. E. Moerner, P. James Schuck, David P.

Comprehensive overview on the fast developing field of single molecule detection Written by experts in the field Includes supplementary material: sn.pub/extras

Texte du rabat

This book focuses on recent advances in the rapidly evolving field of single molecule research. These advances are of importance for the investigation of biopolymers and cellular biochemical reactions, and are essential to the development of quantitative biology. Written by leading experts in the field, the articles cover a broad range of topics, including:

• quantum photonics of organic dyes and inorganic nanoparticles

• their use in detecting properties of single molecules

• the monitoring of single molecule (enzymatic) reactions

• single protein (un)folding in nanometer-sized confined volumes

• the dynamics of molecular interactions in biological cells

The book is written for advanced students and scientists who wish to survey the concepts, techniques and results of single molecule research and assess them for their own scientific activities.

Contenu
Nanophotonics and Single Molecules.- Single Biomolecules at Cryogenic Temperatures: From Structure to Dynamics.- Quantum Optics: Colloidal Fluorescent Semiconductor Nanocrystals (Quantum Dots) in Single-Molecule Detection and Imaging.- Scanning Fluorescence Correlation Spectroscopy.- Single-Molecule Imaging of Cellular Signaling.- Mobility and Signaling of Single Receptor Proteins.- Single Enzyme Kinetics: A Study of the Yeast Enzyme Candida Antarctica Lipase B.- Protein Folding and Dynamics from Optical Single Molecule Spectroscopy.- Single Molecules and Nanoscale Surfactant Networks.- Single-Molecule Covalent Chemistry in a Protein Nanoreactor.- Single-Molecule Microscopy and Force Spectroscopy of Membrane Proteins.