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Electromanipulation of Cells is the first comprehensive, balanced overview of this dynamic discipline. Edited by leading authorities in the field, the book surveys state-of-the-art research as well as recent practical applications of electric field technologies.
Protoplast isolation and culture; Regeneration of plants; Protoplasts for studies of cell organelles; Protoplast fusion, Plant protoplasts and the cell cycle; Isolated protoplasts as laboratory tools in the study of cell wall deposition; Cytodifferentiation; The use of protoplasts for studies on membrane transport in plants; Protoplasts in virology; Plant protoplasts and genetic variation; Plant mutant isolation via protoplasts; Hybridization by somatic cell fusion; Plant protoplast transformation by Agrobacterium in relation to plant biotechnology.
Proceedings of the 7th International Protoplast Symposium, Wageningen, The Netherlands, December 6-11, 1987
Electrical Manipulation of Cells provides an authoritative and up-to-date review of the field, covering all the major techniques in a single source. The book features broad coverage that ranges from the mechanisms of action of external electrical fields on biological material to the ways in which electrical stimuli are employed to manipulate cells. Bringing together the work of leading international authorities, the book covers membrane breakdown, gene delivery, electroporation, electrostimulation, cell movement, hybridoma production, plant protoplasts, electrorotation and stimulation, and electromagnetic stimulation. For each topic, the authors discuss the relevance of the approach to the current state of the art of biotechnology. Electrical Manipulation of Cells is an unmatched source of information for anyone involved in the manipulation of cells, particularly biotechnologists, cell biology, microbiologists, biophysicists and plant scientists. For researchers, the book provides technical material that ccan be employed in their own work. Students will gain thorough appreciation of the applications of this important technique.
In 1988, we were contacted by the "Societe Botanique de France" and the French section of The International Association of Plant Tissue Culture (IAPTC) to organise a symposium on "Biotechnology and its impact in Agriculture". The committee members of these two French associations had the vision to realize that this was a time to depart from the traditional themes in plant science. Moreover, since one of the major areas of our interest for the past few years has been that of "Plant biotechnology", we welcomed the idea of organizing this meeting. Another reason for the acceptance of this challenge was the location of Amiens in Picardy, and the enthusiasm of the local governing authorities. Picardy region is one of the major agricultural zones in France, and indeed of Europe. This fact and several other aspects of Picardy Agriculture suggested that this conference would be an excellent opportunity to combine the basic aspects of plant tissue culture and genetic engineering with the applications for plant improvement.
Although there is general agreement that exogenous electric and electromagnetic fields influence and modulate the properties of biological systems. there is no concensus regarding the mechanisms by which such fields operate. It is the purpose of this volume to bring together and examine critically the mechanistic models and concepts that have been proposed. We have chosen to arrange the papers in terms of the level of biological organization emphasized by the contributors. Some papers overlap categories. but the progression from ions and membrane surfaces. through macromolecules and the membrane matrix to integrated systems. establishes a mechanistic chain of causality that links the basic interactions in the relatively well understood simple systems to the complex living systems. where all effects occur simultaneously. The backgrounds of the invited contributors include biochemistry. biophysics. cell biology. electrical engineering. electrochemistry. electrophysiology. medicine and physical chemistry. As a result of this diversity. the mechanistic models reflect the differing approaches used by these disciplines to explain the same phenomena. Areas of agreement define the common ground. while the areas of divergence provide opportunities for refining our ideas through further experimentation. To facilitate the interaction between the different points of view, the authors have clearly indicated those published observations that they are trying to explain. i.e. the experiments that have been critical in their thinking. This should establish a concensus regarding important observations. In the discussion of theories.
A manual that details the techniques of electrofusion and electroporation by researchers who were the first to show that the platelet membrane glycoproteins GP IIb and GP IIIa are associated in a complex which triggered interest in electrofusion.