000 | 00386nam a2200121Ia 4500 | ||
---|---|---|---|
999 |
_c180144 _d180144 |
||
040 | _cCUS | ||
082 |
_a571.4 _bENE/C |
||
245 | 0 |
_aComprehensive biophysics: biophysics techniques for structural characterization of macromolecules/ _cedited by Edward H. Egelma |
|
260 |
_aAmsterdam: _bElsevier, _c2012. |
||
300 | _a617 p. | ||
505 | _a VOLUME 2 Biophysical Techniques for Characterization of Cells 2.1 Volume Introduction P Schwille 1 Elucidating Cellular Structures 2.2 Confocal Microscopy B Amos, G McConnell, and T Wilson 3 2.3 Fluorescence Lifetime Microscopy: The Phasor Approach MDDigman and E Gratton 24 2.4 Super-Resolution Microscopy M Heilemann 39 2.5 Studying the Macromolecular Machinery of Cells in situ by Cryo-Electron Tomography V Lucic, W Baumeister, and F Forster 59 2.6 Visualizing Sub-cellular Organization Using Soft X-ray Tomography MA Le Gros, CG Knoechel, M Uchida, DYParkinson, G McDermott, and CA Larahell 90 2.7 Atomic Force Microscopy MDuman, I Neundlinger, RZhu, J Preiner, Lamprecht, LA Chtcheglov, C Rankl, T Panthera Anurak, AEbner, and P Hinterdorfer 111 2.8 Super-Resolution Near-Field Optical Microscopy TS van Zanten and MF Garcia-Parajo 144 2.9 CARS Microscopy C Jiingst, R Selm, MJ Winterhalder, and A Zumhusch 165 Elucidating Cellular Dynamics 2.10 Quantitative Fluorescent Speckle Microscopy D Loerke and G Danuser 180 2.11 Fluorescence Correlation Spectroscopy / Ries, T Weidemann, and P Schwille 210 2.12 Image Correlation Spectroscopy PW Wiseman 246 2.13 The Basics and Potential of Single-Molecule Tracking in Cellular Biophysics SF Fenz, A Pezzarossa, and T Schmidt 260 | ||
942 | _cWB16 |