Titlebook: Single Molecules and Nanotechnology; R. Rigler,H. Vogel Book 2008 Springer-Verlag Berlin Heidelberg 2008 Einzelmolekülfluoreszenzmikroskop

Encounter

书目名称Single Molecules and Nanotechnology影响因子(影响力)




书目名称Single Molecules and Nanotechnology影响因子(影响力)学科排名




书目名称Single Molecules and Nanotechnology网络公开度




书目名称Single Molecules and Nanotechnology网络公开度学科排名




书目名称Single Molecules and Nanotechnology被引频次




书目名称Single Molecules and Nanotechnology被引频次学科排名




书目名称Single Molecules and Nanotechnology年度引用




书目名称Single Molecules and Nanotechnology年度引用学科排名




书目名称Single Molecules and Nanotechnology读者反馈




书目名称Single Molecules and Nanotechnology读者反馈学科排名

Observe

Nanophotonics and Single Molecules,tion that can be extracted from each single molecule depends upon the specific photophysical properties of the fluorophore and how these properties are affected by the nearby environment. For this reason, it is necessary to develop single-molecule emitters with as many different reporter functions a

催眠

Single Biomolecules at Cryogenic Temperatures: From Structure to Dynamics,wtemperature observations not only to structure, but also to dynamics, and thereby to the function of proteins. We first review investigations on light-harvesting complexes to illustrate how increased photostability at low temperatures and spectral selection provide a deeper insight into the exciton

coddle

Quantum Optics: Colloidal Fluorescent Semiconductor Nanocrystals (Quantum Dots) in Single-Molecule or in vitro and in vivo biological labeling and single-molecule experiments. QDs possess several unique optical properties that make them very attractive over conventional fluorescent dyes and genetically encoded proteins technologies. They have precise emission color tunability by size due to quant

使迷惑

dissent

Single-Molecule Imaging of Cellular Signaling,ry this technique has been used to study the dynamics of signal transduction in vivo. A multitude of signal transduction cascades are initiated by interactions between proteins in the plasma membrane. These cascades start by binding a ligand to its receptor, thereby activating downstream signaling p

干旱

Mobility and Signaling of Single Receptor Proteins,ocesses are ideally suited to be investigated by single-molecule techniques. This review concerns imaging of cellular signaling processes by single molecule microscopies concentrating on cell surface membrane receptors and nuclear receptors. First we give a comprehensive overview on novel developmen

Oratory

Single Enzyme Kinetics: A Study of the Yeast Enzyme , Lipase B,s (Fersht 1985). During the past decades, our knowledge about enzymes has greatly increased. Enzymes are almost always proteins which are very complex structures having many degrees of motional freedom. Much insight into the structures of these and other biomolecules is obtained by X-ray crystallogr

indifferent

Protein Folding and Dynamics from Optical Single Molecule Spectroscopy,reedimensional structure. Single molecule spectroscopy is thus a promising technique for mapping the structural and dynamic aspects of this reaction that have eluded experimental investigation by ensemble methods. Here, we summarize recent progress in this area, with a focus on Förster resonance ene

Folklore

Single Molecules and Nanoscale Surfactant Networks, ultrasmall volumes in a biomimetic environment. The unique soft matter properties of the phospholipid material led to novel bottom-up fabrication methods, enabling the controlled construction of complex container—nanotube assemblies. Active and psssive transport of submicron particles and biopolyme