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Guide to Electroporation and Electrofusion
 
 

Guide to Electroporation and Electrofusion, 1st Edition

 
Guide to Electroporation and Electrofusion, 1st Edition,Donald Chang,Bruce Chassy,James Saunders,Arthur Sowers,ISBN9780121680411
 
 
 

Chang   &   Chassy   &   Saunders   &   Sowers   

Academic Press

9780121680411

9780080917276

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Key Features

@introbul:Key Features
@bul:* Covers fundamentals of electroporation and electrofusion in detail
* Molecular events
* Mechanisms
* Kinetics
* Gives extensive practical information
* The latest applications
* Controlling parameters to maximize efficiency
* Available instrumentation
* Presents applications of electroporation and electrofusion in current research situations
* State-of-the-art modifications to electrical pulses and generators
* Application of electroporation and electrofusion to unique, alternative cell and tissue types
* Gives straightforward, detailed, easy-to-follow protocols for
* Formation of human hybridomas
* Introduction of genetic material into plant cells and pollen
* Transfection of mammalian cells
* Transformation of bacteria, plants, and yeast
* Production of altered embryos
* Optimization of electroporation by using reporter genes
* Comprehensive and up-to-date
* Convenient bench-top format
* Approximately 125 illustrations complement the text
* Complete references with article titles
* Written by leading authorities in electroporation and electrofusion

Description

Electroporation is an efficient method to introduce macromolecules such as DNA into a wide variety of cells. Electrofusion results in the fusion of cells and can be used to produce genetic hybrids or hybridoma cells.
Guide to Electroporation and Electrofusion is designed to serve the needs of students, experienced researchers, and newcomers to the field. It is a comprehensive manual that presents, in one source, up-to-date, easy-to-follow protocols necessary for efficient electroporation and electrofusion of bacteria, yeast, and plant and animal cells, as well as background information to help users optimize their results through comprehension of the principles behind these techniques.

Readership

Researchers in molecular and cell biology, biotechnology, microbiology, immunology, plant molecular biology, biochemistry, biophysics, and developmental biology.

Donald Chang

Affiliations and Expertise

Baylor College of Medicine, Houston, Texas, U.S.A. and Hong Kong University of Science and Technology, Kowloon, Hong Kong

Bruce Chassy

Affiliations and Expertise

University of Illinois at Urbana-Champaign, Urbana, U.S.A.

James Saunders

Affiliations and Expertise

Beltsville Agricultural Research Center, U.S.D.A., Beltsville, Maryland, U.S.A.

Arthur Sowers

Affiliations and Expertise

School of Medicine, University of Maryland, Baltimore, U.S.A.

Guide to Electroporation and Electrofusion, 1st Edition

D.C. Chang, B.M. Chassy, J.A. Saunders, and A.E. Sowers, Overview of Electroporation and Electrofusion.
Mechanisms and Fundamental Processes in Electroporation and Electrofusion:
D.C. Chang, Structure and Dynamics of Electric Field-Induced Membrane Pores as Revealed by Rapid-Freezing Electron Microscopy.
K. Kinosita, M. Hibino, H. Itoh, M. Shigemori, K. Hirano, Y. Kirino, and T. Hayakawa, Events of Membrane Electroporation Visualized on a Time Scale from Microseconds to Seconds.
T.Y. Tsong, Time Sequence of Molecular Events in Electroporation.
L.V. Chernomordik, Electropores in Lipid Bilayers and Cell Membranes.
E. Neumann, A. Sprafke, E. Boldt, and H. Wolf,
Biophysical Considerations of Membrane Electroporation.
J.C. Weaver and A. Barnett, Progress Toward a Theoretical Model for Electroporation Mechanism: Membrane Electrical Behavior and Molecular Transport.
A.E. Sowers, Mechanisms of Electroporation and Electrofusion.
J. Teissi*aae and M.-P. Rols, Interfacial Membrane Alteration Associated with Electropermeabilization and Electrofusion.
D.S. Dimitrov, Membrane Fusion Kinetics.
S.W. Hui and D.A. Stenger, Effects of Intercellular Forces on Electrofusion.
Q. Zheng and D.C. Chang, Dynamics of Cytoskeletal Reorganization in CV-1 Cells during Electrofusion.
Applications of Electroporation and Electrofusion in Current Research:
H. Potter and S.W.F. Cooke, Gene Transfer into Adherent Cells Growing on Microbeads.
L.H. Reid and O. Smithies, Gene Targeting and Electroporation.
J.A. Saunders, B.F. Matthews, and S.L. Van Wert, Pollen Electrotransformation for Gene Transfer in Plants.
G.W. Bates, Electrofusion of Plant Protoplasts and the Production of Somatic Hybrids.
J.T. Trevors, B.M. Chassy, W.J. Dower, and H.P. Blaschek, Electrotransformation of Bacteria by Plasmid DNA.
W.J. Dower and S.E. Cwirla, Creating Vast Peptide Expression Libraries: Electroporation as a Tool to Construct Plasmid Libraries of Greater Than 109 Recombinants.
D.C. Chang, J.R. Hunt, Q. Zheng, and P.-Q. Gao, Electroporation and Electrofusion Using a Pulsed Radio-Frequency Electric Field.
Y. Mouneimme, P.-F. Tosi, R. Barhoumi, and C. Nicolau, Electroinsertion: An Electrical Method for Protein Implantation into Cell Membranes.
R.R. Swezey and D. Epel, Electroporation as a Tool to Study Enzyme Activities in Situ.
U. Karsten, P. Stolley, and B. Seidel, Comparison of PEG-Induced and Electric Field-Mediated Cell Fusion in the Generation of Monoclonal Antibodies against a Variety of Soluble and Cellular Antigens.
L.C. Smith, Production of Genetically Identical Embryos by Electrofusion.
R. Heller and R. Gilbert, Development of Cell-Tissue Electrofusion for Biological Applications.
S.R. Gallagher and D.C. Chang, Novel Applications of Electroporation.
Practical Protocols for Electroporation and Electrofusion:
D.C. Chang, Design of Protocols for Electroporation and Electrofusion: Selection of Electrical Parameters.
H. Potter, Protocols for Using Electroporation to Stably or Transiently Transfect Mammalian Cells.
G.R. MacGregor, Optimization of Electroporation Using Reporter Genes.
J.A. Saunders and G.W. Bates, Genetic Manipulation of Plant Cells by Means of Electroporation and Electrofusion.
W.J. Dower, B.M. Chassy, J.T. Trevors, and H.P. Blaschek, Protocols for the Transformation of Bacteria by Electroporation.
D.M. Becker and L. Guarente, Protocol for High-Efficiency Yeast Transformation.
M.I. Mally, M.E. McKnight, and M.C. Glassy, Protocols of Electroporation and Electrofusion for Producing Human Hybridomas.
S.M.M. Rehman, S. Perkins, U. Zimmermann, and S.K.H. Foung, Human Hybridoma Formation by Hypo-Osmolar Electrofusion.
J.M. Robl, P. Collas, R. Fissore, and J.R. Dobrinsky, Electrically Induced Fusion and Activation in Nuclear Transplant Embryos.
Instrumentation for Electroporation and Electrofusion:
B.M. Chassy, J.A. Saunders, and A.E. Sowers, Pulse Generators for Electrofusion and Electroporation.
Chapter References.
Index.

Quotes and reviews

@qu:"The protocols are well presented... Excellent instructions for optimizing the procedures on different cell types... Anyone who wants to use electroporation or electrofusion in anything but a routine fashion will find this book very useful."
@source:--ANALYTICAL BIOCHEMISTRY
 
 

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