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Genetic Preservation of Plant Cells in Vitro
The long-term storage and maintenance of viable plant cells and organs is an area of active concern across the range of pure and applied plant sciences. In academic, government and commercial laboratories, the extended storage of propagules of one sort or another, with maximum protection of the genome from mutation and altered expression, is often a very necessary activity that can draw heavily on resources and effort. However, preservation per se is typically not an activity in its own right, but a facilitating technology that is part of a larger programme of work. Consequently, there are many laboratories that do not have the benefit of a specialist in storage technology, and have to delegate the responsibility to individuals, or teams, who are faced with a daunting learning curve. To maximise the chances of success, in the shortest possible time and with minimum losses, these researchers need sources of reference that are au­ thoritative and soundly based in practical experience.
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Genetic Preservation of Plant Cells in Vitro
The long-term storage and maintenance of viable plant cells and organs is an area of active concern across the range of pure and applied plant sciences. In academic, government and commercial laboratories, the extended storage of propagules of one sort or another, with maximum protection of the genome from mutation and altered expression, is often a very necessary activity that can draw heavily on resources and effort. However, preservation per se is typically not an activity in its own right, but a facilitating technology that is part of a larger programme of work. Consequently, there are many laboratories that do not have the benefit of a specialist in storage technology, and have to delegate the responsibility to individuals, or teams, who are faced with a daunting learning curve. To maximise the chances of success, in the shortest possible time and with minimum losses, these researchers need sources of reference that are au­ thoritative and soundly based in practical experience.
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Genetic Preservation of Plant Cells in Vitro

Genetic Preservation of Plant Cells in Vitro

Genetic Preservation of Plant Cells in Vitro

Genetic Preservation of Plant Cells in Vitro

Overview

The long-term storage and maintenance of viable plant cells and organs is an area of active concern across the range of pure and applied plant sciences. In academic, government and commercial laboratories, the extended storage of propagules of one sort or another, with maximum protection of the genome from mutation and altered expression, is often a very necessary activity that can draw heavily on resources and effort. However, preservation per se is typically not an activity in its own right, but a facilitating technology that is part of a larger programme of work. Consequently, there are many laboratories that do not have the benefit of a specialist in storage technology, and have to delegate the responsibility to individuals, or teams, who are faced with a daunting learning curve. To maximise the chances of success, in the shortest possible time and with minimum losses, these researchers need sources of reference that are au­ thoritative and soundly based in practical experience.

Product Details

ISBN-13: 9783642489686
Publisher: Springer Berlin Heidelberg
Publication date: 07/01/2012
Series: Springer Lab Manuals
Edition description: 1995
Pages: 169
Product dimensions: 7.44(w) x 9.69(h) x 0.02(d)

Table of Contents

1 Introduction to the in Vitro Preservation of Plant Cells, Tissues and Organs.- 1.1 Storage Techniques.- 1.2 Principles of Cryogenic Storage.- References.- 2 Minimal Growth Storage.- 2.1 Growth at Reduced Temperature.- 2.2 The Addition of Inhibitory Growth Regulators.- 2.3 The Addition of Osmotic Regulators.- 2.4 Combined Treatment.- References.- 3 Cryopreservation of Protoplast, Suspension and Callus Cultures.- 3.1 General Practical Considerations.- 3.2 Protoplast Cryopreservation by Slow Cooling.- 3.3 Cryopreservation of Cell Suspension Cultures by Slow Cooling.- 3.4 Cryopreservation of Callus Cultures by Slow Cooling.- References.- 4 Cryopreservation of Excised Meristems, Shoot Tips and Somatic Embryos.- 4.1 Meristem/Shoot-Tip Cryopreservation by Slow Cooling.- 4.2 Meristem/Shoot-Tip Cryopreservation by Rapid Cooling.- 4.3 Cryopreservation of Somatic Embryos by Dry Freezing.- 4.4 Cryopreservation of Somatic Embryos by Rapid Cooling.- 4.5 Cryopreservation of Somatic Embryos Following Dessication.- References.- 5 Storage of Free Pollen, Pollen Embryos and the Zygotic Embryos of Seed by Cryopreservation and Freeze Drying.- 5.1 Freezing Drying of Pollen.- 5.2 Pollen Cryopreservation.- 5.3 Cryopreservation of Pollen Embryos.- 5.4 Cryopreservation of Excised Zygotic Embryos.- References.- 6 Conservation of Algae.- 6.1 Serial Subculture.- 6.2 Cryopreservation.- References.- 7 Cryopreservation by Vitrification.- 7.1 Vitrification of Shoot Tips.- 7.2 Encapsulation/Dehydration Method.- 7.3 Vitrification of Cells and Protoplasts.- 7.4 Further Experiments.- References.- 8 Biochemical and Molecular Methods for Assessing Damage, Recovery and Stability in Cryopreserved Plant Germplasm.- A Biochemical Methods.- B Molecular Methods.- References.
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