Sale!

Biophysical methods in cell biology 1st Edition by Ewa K Paluch ISBN 0128013265 9780128013267

Original price was: $50.00.Current price is: $35.00.

Biophysical methods in cell biology First Edition Paluch Digital Instant Download

Author(s): Paluch, Ewa K
ISBN(s): 9780128013267, 0128013265
Edition: First edition
File Details: PDF, 31.25 MB
Year: 2015
Language: english
SKU: EB-5431524 Category: Tags: ,

Biophysical methods in cell biology 1st Edition by Ewa K Paluch – Ebook PDF Instant Download/Delivery: 0128013265, 9780128013267
Full download Biophysical methods in cell biology 1st Edition after payment

Product details:

ISBN 10: 0128013265 
ISBN 13: 9780128013267
Author: Ewa K Paluch

This new volume of Methods in Cell Biology looks at methods for analyzing of biophysical methods in cell biology. Chapters cover such topics as AFM, traction force microscopy, digital holographic microscopy, single molecule imaging, video force microscopy and 3D multicolor super-resolution screeningCovers sections on model systems and functional studies, imaging-based approaches and emerging studiesChapters are written by experts in the fieldCutting-edge material.

Biophysical methods in cell biology 1st Table of contents:

Chapter 1. Single-molecule imaging of cytoplasmic dynein in vivo
Introduction
1. Visualization of Cytoplasmic Dynein In Vivo
2. Image Analysis
3. Conclusion
4. Methods
Chapter 2. Single-molecule imaging in live cell using gold nanoparticles
Introduction and Rationale
1. Gold Nanoparticle Synthesis and Functionalization
2. Photothermal Imaging
3. Live Cell Imaging
Conclusion
Chapter 3. Quantitative measurement of transcription dynamics in living cells
1. Visualizing Transcription in Living Cells
2. Experimental Protocols
3. Cell Segmentation
4. Measuring Spot Intensity
5. Correcting for Background MS2-GFP Level
6. Tracking Algorithms
7. Additional Cell Properties
8. Summary
Chapter 4. An easy-to-use single-molecule speckle microscopy enabling nanometer-scale flow and wide-range lifetime measurement of cellular actin filaments
Introduction
1. Methods
2. Perspectives
Chapter 5. Dissecting microtubule structures by laser ablation
Introduction
1. Theoretical Framework
2. Microtubule Organization Measurements
Discussion and Conclusion
Chapter 6. Quantifying mitochondrial content in living cells
Introduction
1. Basic Protocol (96-Well Glass Bottom Plate)
2. Alternate Protocol (CellASIC Microfluidic Flow Chamber)
3. Important Considerations for Successful MitoGraph Performance
4. Beyond Wild-type Mitochondria in Budding Yeast Imaged with Spinning-Disk Confocal Microscopy
Chapter 7. High-content 3D multicolor super-resolution localization microscopy
Introduction
1. Sample Preparation
2. Imaging Acquisition and Image Analysis
Conclusions and Outlook
Chapter 8. Superresolution measurements in vivo: Imaging Drosophila embryo by photoactivated localization microscopy
Introduction
1. Embryo Preparation
2. Sample Mounting
3. Optical Setup
4. Imaging
5. Data Analysis
6. Summary and Outlook
Chapter 9. Refractive index measurements of single, spherical cells using digital holographic microscopy
Introduction
1. Setup
2. Measurement Preparation
3. Data Analysis
4. Discussion
5. Summary
Chapter 10. Construction, imaging, and analysis of FRET-based tension sensors in living cells
Introduction
1. Design, Production, and Validation of Tension Sensors
2. Imaging of FRET-Based Biosensors
3. Methods of Analysis of FRET Images
4. Summary
Chapter 11. Single-cell mechanics: The parallel plates technique
Introduction
1. Experimental Setup
2. Microplates
3. Cell Preparation
4. Experimental Protocols
5. Discussion
Chapter 12. Atomic force microscopy-based force measurements on animal cells and tissues
Introduction
1. Experimental Setup
2. Sample Preparation
3. AFM and Optical Imaging
4. Measuring Cell and Tissue Stiffness
5. Measuring Adhesion
6. Further Applications
Conclusions
Chapter 13. Measuring the elasticity of plant cells with atomic force microscopy
Introduction
1. Sample preparation and mounting
2. Atomic force microscopy
3. Experimental design
4. Discussion
5. Notes
Chapter 14. Dual pipette aspiration: A unique tool for studying intercellular adhesion
Introduction
1. Overview of the DPA Setup
2. Preparing the Pipettes
3. Preparing the Aspiration Assay
4. Cell Micromanipulation
5. Discussion
General Conclusions
Chapter 15. Measurement of cell traction forces with ImageJ
Introduction
1. Force Measurement Principle
2. Critical Experimental Parameters
3. Critical Numerical Parameters
4. Preparation of Patterned Polyacrylamide Gels with Fiducial Markers
5. Image Acquisition
6. Image Analysis, Estimation of Displacement, and Traction Force Fields
Conclusion
Chapter 16. Micropillar substrates: A tool for studying cell mechanobiology
Introduction
1. Substrate Fabrication
2. Substrate Characterization
3. Substrate Functionalization
4. Cells Seeding and Imaging
5. Image Analysis and Evaluation of Traction Force
6. Discussion and Perspectives
Chapter 17. Mapping forces and kinematics during collective cell migration
Introduction
1. Experimental Tools to Map Forces and Kinematics during Collective Cell Migration
2. Computational Tools to Map Forces and Kinematics during Collective Cell Migration
General Conclusions
Chapter 18. Practical aspects of the cellular force inference toolkit (CellFIT)
Introduction
1. The Basic Steps in CellFIT
2. Working with CellFIT Output
Chapter 19. Quantification of collagen contraction in three-dimensional cell culture
Introduction
1. Method
2. Pseudo-speckle Microscopy
3. Software
4. Data Analysis
5. Discussion
General Conclusion
Chapter 20. Generation of biocompatible droplets for in vivo and in vitro measurement of cell-generated mechanical stresses
Introduction
1. Methods
2. Discussion
Conclusion
Chapter 21. Laser induced wounding of the plasma membrane and methods to study the repair process
Introduction
1. Cell Deposition
2. Photodamage and Imaging
3. Following Plasma Membrane Damage and Repair
4. Image Analysis
5. Data Analysis
6. Discussion
General Conclusions
Chapter 22. Electrofusion of giant unilamellar vesicles to cells
Introduction
1. Preparation of GUVs by Electroformation
2. Electrofusion of GUVs to Cells
3. Discussion
Chapter 23. Measurement and manipulation of cell size parameters in fission yeast
Introduction
1. Measurement of Size Parameters of Single Fission Yeast Cells
2. Microchannel Assay for Cell Diameter Manipulation
Conclusions
Chapter 24. Methods for rectifying cell motions in vitro: breaking symmetry using microfabrication and microfluidics
Introduction
1. Breaking Symmetry with Topography: Fabrication of a Topographical Pattern
2. Breaking Symmetry with Chemical Gradient: Preparation of the Fibronectin Gradient
3. Cell Migration Experiments
4. Discussion
Conclusions
Chapter 25. Analyzing bacterial movements on surfaces
Introduction
1. Preparing Bacterial Suspension
2. Tracking Bacteria on Solid Surfaces
3. Tracking Bacteria on Cells
4. Discussion Points
Conclusions
Chapter 26. Advances in single-cell experimental design made possible by automated imaging platforms with feedback through segmentation
Introduction
1. In vitro Experiments where Automation is Important
2. Preparation of Cells Described in this Chapter
3. Automation Methods
4. Discussion
5. Outlook

People also search for Biophysical methods in cell biology 1st:

biophysical methods in cell biology
    
biophysical methods for protein characterization
    
biophysical measures in research
    
biophysical methods
    
biophysical measures

Tags:

Ewa K Paluch,Biophysical methods,cell biology