Titre : | Plant Cell Culture Protocols | Type de document : | texte imprimé | Editeur : | New York : Humana Press | Année de publication : | 1999 | Importance : | XIV, 421 p. | Présentation : | 33 b/w illustrations | ISBN/ISSN/EAN : | 978-1-4899-4360-6 | Langues : | Anglais | Tags : | Life Sciences, Plant Sciences | Index. décimale : | | Résumé : | In Plant Cell Culture Protocols, Robert Hall and a panel of expert researchers present a comprehensive collection of the most frequently used and broadly applicable techniques for plant cell and tissue culture. Readily reproducible and extensively annotated, the methods cover culture initiation, maintenance, manipulation, application, and long-term storage, with emphasis on techniques for genetic modification and micropropagation. Many of these protocols are currently used in major projects designed to produce improved varieties of important crop plants. In addition, a number of specialized protocols have been included to illustrate the diversity of the techniques available and their widespread applicability. Plant Cell Culture Protocols is aimed at scientists involved in all aspects of plant biotechnological research, as well as those working in other areas of agriculture and horticulture who are interested in expanding their technical repertoire to include in vitro methodology. Its state-of-the-art techniques are certain to make the book today's reference of choice, an indispensable tool in the development of new transgenic plants and full-scale commercial applications. ". . . a valuable update on the technology, with emphasis on methods for micropropagation and gene transfer. . .the editor has assembled an excellent range of expert authors and the volume is well balanced and up-to-date. . .thoroughly recommended."-Plant Growth Regulation "Protocols are presented for many agronomically important plants including the culture and regeneration of rice, potato, barley, casava, spruce, Pasiflora, Lolium, and various species of Brassica. The organization of all of the chapters is consistent including an introduction, a materials section divided into appropriate subsections, a similarly subdivided methods section, a notes section that contains important observations to make or precautions to take, and a final reference section. . .the techniques are well written and include specific examples and step-by-step methods with appropriate references. . .will make an excellent addition to the library of researchers who wish to extend their collection of basic plant cell culture techniques."-Quarterly Review of Biology "The combination of many years of experience with new experimental entries is often very successful and of high quality...represents one of the highest quality manuals on this topic published with the last ten years...it will assure the relevance of an important scientific discipline, plant biotechnology, in today's world."-Biologia Plantarum "The book brings together a series of well written, step-by-step protocols on the most frequently used techniques in plant cell and tissue culture, covering various aspects of culture initiation, maintenance, long-term storage and manipulation....In addition to protocols on widely applied methods, each part includes representative protocols for more specialized techniques....All the chapters are well structured, profusely illustrated with original photographs and line drawings, and contain detailed descriptions of materials, culture media and comprehensively described experimental procedures. The reader will certainly appreciate the precautionary notes and additional hints on each technique and each protocol provided at the end of each chapter."-Elsevier "This book presents a comprehensive collection of applicable techniques for plant cell and tissue culture. The methods cover culture initiation, maintenance, manipulation, application and long-term storage, with emphasis on techniques for genetic modification and micropropagation."
Table of Contents
1) An Introduction to Plant-Cell Culture; Pages 1-18; Hall, Robert D. | 2) Callus Initiation, Maintenance, and Shoot Induction in Rice; Pages 19-29; Blackhall, Nigel W. (et al.) | 3) Callus Initiation, Maintenance, and Shoot Induction in Potato; Pages 31-42; Curry, Rosario F. (et al.) | 4) Somatic Embryogenesis in Barley Suspension Cultures; Pages 43-49; Kihara, Makoto (et al.) | 5) Somatic Embryogenesis in Picea Suspension Cultures; Pages 51-60; Egertsdotter, Ulrika | 6) Direct, Cyclic Somatic Embryogenesis of Cassava for Mass Production Purposes; Pages 61-70; Raemakers, Krit J. J. M. (et al.) | 7) Immature Inflorescence Culture of Cereals; Pages 71-81; Rasco-Gaunt, Sonriza (et al.) | 8) Cryopreservation of Rice Tissue Cultures; Pages 83-94; Benson, Erica E. (et al.) | 9) Noncryogenic, Long-Term Germplasm Storage; Pages 95-101; Golmirzaie, Ali (et al.) | 10) Micropropagation of Strawberry via Axillary Shoot Proliferation; Pages 103-114; Boxus, Philippe | 11) Meristem-Tip Culture for Propagation and Virus Elimination; Pages 115-125; Grout, Brian W. W. | 12) Clonal Propagation of Orchids; Pages 127-134; Tisserat, Brent (et al.) | 13) In Vitro Propagation of Succulent Plants; Pages 135-140; Gratton, Jill (et al.) | 14) Micropropagation of Flower Bulbs; Pages 141-147; Langens-Gerrits, Merel M. (et al.) | 15) Clonal Propagation of Woody Species; Pages 149-157; Harry, Indra S. (et al.) | 16) Spore-Derived Axenic Cultures of Ferns as a Method of Propagation; Pages 159-168; Ford, Matthew V. (et al.) | 17) Protoplast Isolation, Culture, and Plant Regeneration from Passiflora; Pages 169-181; Anthony, Paul (et al.) | 18) Isolation, Culture, and Plant Regeneration of Suspension-Derived Protoplasts of Lolium; Pages 183-193; Foiling, Marianne (et al.) | 19) Protoplast Fusion for Symmetric Somatic Hybrid Production in Brassicaceae; Pages 195-210; Fahleson, Jan (et al.) | 20) Production of Cybrids in Rapeseed (Brassica napus); Pages 211-226; Yarrow, Stephen | 21) Microprotoplast-Mediated Chromosome Transfer (MMCT) for the Direct Production of Monosomic Addition Lines; Pages 227-242; Ramulu, Kamisetti S. (et al.) | 22) Guard Cell Protoplasts; Pages 243-257; Boorse, Graham (et al.) | 23) In Vitro Fertilization with Isolated Single Gametes; Pages 259-267; Kranz, Erhard | 24) Protocols for Anther and Microspore Culture of Barley; Pages 269-279; Jähne-Gärtner, Alwine (et al.) | 25) Microspore Embryogenesis and In Vitro Pollen Maturation in Tobacco; Pages 281-291; Touraev, Alisher (et al.) | 26) Embryo Rescue Following Wide Crosses; Pages 293-307; Sharma, Hari C. | 27) Mutagenesis and the Selection of Resistant Mutants; Pages 309-318; Dix, Philip J. | 28) The Generation of Plastid Mutants In Vitro; Pages 319-326; Dix, Philip J. | 29) Agrobacterium-Mediated Transformation of Petunia Leaf Disks; Pages 327-334; Meer, Ingrid M. | 30) Transformation of Rice via PEG-Mediated DNA Uptake into Protoplasts; Pages 335-347; Datta, Karabi (et al.) | 31) Transformation of Wheat via Particle Bombardment; Pages 349-358; Vasil, Indra K. (et al.) | 32) Plant Transformation via Protoplast Electroporation; Pages 359-366; Bates, George W. | 33) Transformation of Maize via Tissue Electroporation; Pages 367-373; D’Halluin, Kathleen (et al.) | 34) Transformation of Maize Using Silicon Carbide Whiskers; Pages 375-382; Dunwell, Jim M. | 35) Directing Anthraquinone Accumulation via Manipulation of Morinda Suspension Cultures; Pages 383-392; Hagendoorn, Marc J. M. (et al.) | 36) Alkaloid Accumulation in Catharanthus roseus Suspension Cultures; Pages 393-402; Scragg, Alan H. | 37) Betalains; Pages 403-410; Hunter, Christopher S. (et al.) |
Plant Cell Culture Protocols [texte imprimé] . - New York : Humana Press, 1999 . - XIV, 421 p. : 33 b/w illustrations. ISBN : 978-1-4899-4360-6 Langues : Anglais Tags : | Life Sciences, Plant Sciences | Index. décimale : | | Résumé : | In Plant Cell Culture Protocols, Robert Hall and a panel of expert researchers present a comprehensive collection of the most frequently used and broadly applicable techniques for plant cell and tissue culture. Readily reproducible and extensively annotated, the methods cover culture initiation, maintenance, manipulation, application, and long-term storage, with emphasis on techniques for genetic modification and micropropagation. Many of these protocols are currently used in major projects designed to produce improved varieties of important crop plants. In addition, a number of specialized protocols have been included to illustrate the diversity of the techniques available and their widespread applicability. Plant Cell Culture Protocols is aimed at scientists involved in all aspects of plant biotechnological research, as well as those working in other areas of agriculture and horticulture who are interested in expanding their technical repertoire to include in vitro methodology. Its state-of-the-art techniques are certain to make the book today's reference of choice, an indispensable tool in the development of new transgenic plants and full-scale commercial applications. ". . . a valuable update on the technology, with emphasis on methods for micropropagation and gene transfer. . .the editor has assembled an excellent range of expert authors and the volume is well balanced and up-to-date. . .thoroughly recommended."-Plant Growth Regulation "Protocols are presented for many agronomically important plants including the culture and regeneration of rice, potato, barley, casava, spruce, Pasiflora, Lolium, and various species of Brassica. The organization of all of the chapters is consistent including an introduction, a materials section divided into appropriate subsections, a similarly subdivided methods section, a notes section that contains important observations to make or precautions to take, and a final reference section. . .the techniques are well written and include specific examples and step-by-step methods with appropriate references. . .will make an excellent addition to the library of researchers who wish to extend their collection of basic plant cell culture techniques."-Quarterly Review of Biology "The combination of many years of experience with new experimental entries is often very successful and of high quality...represents one of the highest quality manuals on this topic published with the last ten years...it will assure the relevance of an important scientific discipline, plant biotechnology, in today's world."-Biologia Plantarum "The book brings together a series of well written, step-by-step protocols on the most frequently used techniques in plant cell and tissue culture, covering various aspects of culture initiation, maintenance, long-term storage and manipulation....In addition to protocols on widely applied methods, each part includes representative protocols for more specialized techniques....All the chapters are well structured, profusely illustrated with original photographs and line drawings, and contain detailed descriptions of materials, culture media and comprehensively described experimental procedures. The reader will certainly appreciate the precautionary notes and additional hints on each technique and each protocol provided at the end of each chapter."-Elsevier "This book presents a comprehensive collection of applicable techniques for plant cell and tissue culture. The methods cover culture initiation, maintenance, manipulation, application and long-term storage, with emphasis on techniques for genetic modification and micropropagation."
Table of Contents
1) An Introduction to Plant-Cell Culture; Pages 1-18; Hall, Robert D. | 2) Callus Initiation, Maintenance, and Shoot Induction in Rice; Pages 19-29; Blackhall, Nigel W. (et al.) | 3) Callus Initiation, Maintenance, and Shoot Induction in Potato; Pages 31-42; Curry, Rosario F. (et al.) | 4) Somatic Embryogenesis in Barley Suspension Cultures; Pages 43-49; Kihara, Makoto (et al.) | 5) Somatic Embryogenesis in Picea Suspension Cultures; Pages 51-60; Egertsdotter, Ulrika | 6) Direct, Cyclic Somatic Embryogenesis of Cassava for Mass Production Purposes; Pages 61-70; Raemakers, Krit J. J. M. (et al.) | 7) Immature Inflorescence Culture of Cereals; Pages 71-81; Rasco-Gaunt, Sonriza (et al.) | 8) Cryopreservation of Rice Tissue Cultures; Pages 83-94; Benson, Erica E. (et al.) | 9) Noncryogenic, Long-Term Germplasm Storage; Pages 95-101; Golmirzaie, Ali (et al.) | 10) Micropropagation of Strawberry via Axillary Shoot Proliferation; Pages 103-114; Boxus, Philippe | 11) Meristem-Tip Culture for Propagation and Virus Elimination; Pages 115-125; Grout, Brian W. W. | 12) Clonal Propagation of Orchids; Pages 127-134; Tisserat, Brent (et al.) | 13) In Vitro Propagation of Succulent Plants; Pages 135-140; Gratton, Jill (et al.) | 14) Micropropagation of Flower Bulbs; Pages 141-147; Langens-Gerrits, Merel M. (et al.) | 15) Clonal Propagation of Woody Species; Pages 149-157; Harry, Indra S. (et al.) | 16) Spore-Derived Axenic Cultures of Ferns as a Method of Propagation; Pages 159-168; Ford, Matthew V. (et al.) | 17) Protoplast Isolation, Culture, and Plant Regeneration from Passiflora; Pages 169-181; Anthony, Paul (et al.) | 18) Isolation, Culture, and Plant Regeneration of Suspension-Derived Protoplasts of Lolium; Pages 183-193; Foiling, Marianne (et al.) | 19) Protoplast Fusion for Symmetric Somatic Hybrid Production in Brassicaceae; Pages 195-210; Fahleson, Jan (et al.) | 20) Production of Cybrids in Rapeseed (Brassica napus); Pages 211-226; Yarrow, Stephen | 21) Microprotoplast-Mediated Chromosome Transfer (MMCT) for the Direct Production of Monosomic Addition Lines; Pages 227-242; Ramulu, Kamisetti S. (et al.) | 22) Guard Cell Protoplasts; Pages 243-257; Boorse, Graham (et al.) | 23) In Vitro Fertilization with Isolated Single Gametes; Pages 259-267; Kranz, Erhard | 24) Protocols for Anther and Microspore Culture of Barley; Pages 269-279; Jähne-Gärtner, Alwine (et al.) | 25) Microspore Embryogenesis and In Vitro Pollen Maturation in Tobacco; Pages 281-291; Touraev, Alisher (et al.) | 26) Embryo Rescue Following Wide Crosses; Pages 293-307; Sharma, Hari C. | 27) Mutagenesis and the Selection of Resistant Mutants; Pages 309-318; Dix, Philip J. | 28) The Generation of Plastid Mutants In Vitro; Pages 319-326; Dix, Philip J. | 29) Agrobacterium-Mediated Transformation of Petunia Leaf Disks; Pages 327-334; Meer, Ingrid M. | 30) Transformation of Rice via PEG-Mediated DNA Uptake into Protoplasts; Pages 335-347; Datta, Karabi (et al.) | 31) Transformation of Wheat via Particle Bombardment; Pages 349-358; Vasil, Indra K. (et al.) | 32) Plant Transformation via Protoplast Electroporation; Pages 359-366; Bates, George W. | 33) Transformation of Maize via Tissue Electroporation; Pages 367-373; D’Halluin, Kathleen (et al.) | 34) Transformation of Maize Using Silicon Carbide Whiskers; Pages 375-382; Dunwell, Jim M. | 35) Directing Anthraquinone Accumulation via Manipulation of Morinda Suspension Cultures; Pages 383-392; Hagendoorn, Marc J. M. (et al.) | 36) Alkaloid Accumulation in Catharanthus roseus Suspension Cultures; Pages 393-402; Scragg, Alan H. | 37) Betalains; Pages 403-410; Hunter, Christopher S. (et al.) |
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