Author : I. K. Vasil
Publisher :
Page : 686 pages
File Size : 18,88 MB
Release : 1984
Category : Cell culture
ISBN :
V. 1. Laboratory procedures and their applications.--v. 2. Cell growth, nutrition, cytodifferentiation, and cryopreservation.--v. 3. Plant regeneration and genetic variability.--v. 4. Cell culture in phytochemistry.--v. 5. Phytoche micals in plant cell cultures.--v. 6. Molecular biology of plant nuclear genes. --v. 7A. The molecular biology of plastids.--v. 7B. The photosynthetic apparatus: molecular biology and operation.--v. 8. Scale-up and automation in plant propagation.
Author : Indra Asil
Publisher : Elsevier
Page : 313 pages
File Size : 27,67 MB
Release : 2012-12-02
Category : Science
ISBN : 0323156509
Plant Improvement and Somatic Cell Genetics includes all but one of the papers presented at two symposia held during the XIII International Botanical Congress in Sydney, Australia, on August 21-28, 1981. ""Frontiers in Plant Breeding"" and ""Cell Culture and Somatic Cell Genetics in Plant Biology"" highlight the ways in which plant breeding techniques can improve crops. The book explores the potentials as well as the limitations of plant breeding, and cellular and molecular techniques in plant improvement. Comprised of 14 chapters, this volume begins with an overview of the potential applications of exotic germplasm for tomato and cereal crop improvement. It continues with a discussion of multiline breeding, breeding of crop plants that can tolerate soil stresses, combining genomes by means of conventional methods, use of embryo culture in interspecific hybridization, use of haploids in plant improvement, and somaclonal variation and somatic hybridization as new techniques for plant improvement. The reader is also introduced to plant cell culture, as well as somatic cell genetics of cereals and grasses, somatic cell fusion for inducing cytoplasmic exchange, uses of cell culture mutants, genetic transformation of plant cells by experimental procedures in the context of plant genetic engineering, and use of molecular biology techniques for recognition and modification of crop plant genotypes. This book will be a useful resource for scientists and plant breeders interested in applying somatic cell genetics for crop improvement.
Author : I. K. Vasil
Publisher :
Page : 874 pages
File Size : 15,83 MB
Release : 1984
Category : Cell culture
ISBN : 9780127150017
V. 1. Laboratory procedures and their applications.--v. 2. Cell growth, nutrition, cytodifferentiation, and cryopreservation.--v. 3. Plant regeneration and genetic variability.--v. 4. Cell culture in phytochemistry.--v. 5. Phytoche micals in plant cell cultures.--v. 6. Molecular biology of plant nuclear genes. --v. 7A. The molecular biology of plastids.--v. 7B. The photosynthetic apparatus: molecular biology and operation.--v. 8. Scale-up and automation in plant propagation.
Author : I. K. Vasil
Publisher :
Page : 0 pages
File Size : 50,79 MB
Release : 1984
Category : Plant cell culture
ISBN :
Author : I. K. Vasil
Publisher :
Page : pages
File Size : 14,40 MB
Release : 1984
Category : Plant cell culture
ISBN :
Author : Indra Vasil
Publisher : Academic Press
Page : 300 pages
File Size : 32,56 MB
Release : 2012-12-02
Category : Science
ISBN : 0323157386
Scale-Up and Automation in Plant Propagation reviews methods of automation and scale-up of plant propagation in vitro. It looks at the large scale clonal propagation of plants, or micropropagation, as the first major practical application of plant biotechnology. It also discusses the advantages and limitations of micropropagation and evaluates current methods of commercial micropropagation. Organized into 13 chapters, this volume begins with an overview of the benefits of scaling up and automating plant propagation before proceeding with a discussion of synthetic seeds and their use for plant propagation, along with problems and economic considerations associated with synthetic seed technology. It then considers the implementation of somatic embryogenesis technology for clonal forestry, the development and commercialization of bioreactor technology for automated propagation of potato microtubers and lily microbulbs, and approaches to automated propagation of fruit trees. Other chapters focus on issues of cost reduction and development of ""new"" products, scale-up and operation of prototype bioreactors for plant propagation, and application of machine vision technology to scale-up and automated evaluation of somatic embryogenesis in sweet potato. The book also describes methods of measurement and control of the environment in culture, environmental factors affecting photosynthesis, and use of robotics and field transplanters in the automation of plant propagation. Scientists and plant breeders will find this book extremely useful.
Author : I. K. Vasil
Publisher :
Page : 0 pages
File Size : 14,20 MB
Release : 1984
Category : Plant cell culture
ISBN :
Author : M.R. Ahuja
Publisher : Springer Science & Business Media
Page : 228 pages
File Size : 19,9 MB
Release : 2012-12-06
Category : Technology & Engineering
ISBN : 9400928114
Most forest tree species were considered recalcitrant a decade ago, but now with the improved in vitro techniques some progress has been made towards culture-of tree species. Micro propagation has been achieved from the juvenile tissues of a number of forest tree species. On the other hand, tissues from most mature trees are still very difficult to grow and differen tiate in vitro. Nevertheless, there has been slow but steady progress in the application of tissue culture technology for culture of tissues, organs, cells and protoplasts of tree species. As compared to most agricultural crops, and herbaceous plant species, trees are a different lot. They have long gene ration cycles. They are highly heterozygous and have a large reservoir of genetic variability. Because of this genetic variability, their response in vitro is also variable. On a single medium, the response of tissues from different trees (genotypes) of a single species may be quite different: some responding by induction of growth and differentiation, while others showing minimal or no growth at all. That makes the somatic cell genetics of woody plants somewhat difficult, but at the same time interesting.
Author : Lawrence Bogorad
Publisher : Academic Press
Page : 524 pages
File Size : 47,3 MB
Release : 2012-12-02
Category : Science
ISBN : 0323147232
The Photosynthetic Apparatus: Molecular Biology and Operation: Cell Culture and Somatic Cell Genetics of Plants, Volume 7B is a collection of papers that discuss plastids – organelles found in plants that set them apart from other organisms. The book is divided into two parts. Coverage of Part I includes concepts such as photosynthesis and the photosynthetic apparatus - light energy and photosynthetic electronic transport, photosynthetic phosphorylation, and fractionation of the photosynthetic apparatus; photosystem II – its protein components, genetic aspects, and structure and function; the cytochrome b6/f complex; and the structure and function of coupling factor components. Coverage of Part II includes the biochemistry and molecular biology of chlorophyll; genes and enzymes for carotenoid biosynthesis; photoregulated development of chloroplasts; and the differentiation of amyloplasts and chromoplasts. The text is recommended for botanists, molecular biologists, and biochemists who are interested in the study of plant cells and photosynthesis.
Author : S.S. Bhojwani
Publisher : Elsevier
Page : 470 pages
File Size : 31,88 MB
Release : 2012-12-02
Category : Science
ISBN : 0444598472
During the past decade, Plant Tissue Culture (PTC) has attracted considerable attention because of its vital role in plant biotechnology. PTC offers novel approaches to plant production, propagation, and preservation. Some in vitro techniques are being applied on a commercial scale while many others hold great potential. Consequently, the literature in this area has grown rapidly.This book deals with recent developments in plant tissue culture, and presents a critical assessment of the proven and potential applications of the various in vitro techniques, it also highlights current problems limiting the application of tissue culture, and projects the future lines of research in this field.
