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Plant Biotechnology
Plant Biotechnology provides an introduction to the fundamental life processes and reviews topics relevant to plant biotechnology. This book discusses the manipulation of biological systems to solve practical problems in industry or agriculture. Organized into four parts encompassing 18 chapters, this book begins with an overview of the fundamental techniques essential to plant biotechnology. This text then describes the various aspects of the regulation of gene expression in plants and reviews the molecular architecture of plant genes. Other chapters consider chloroplast genome from various organisms and present the practical examples of the significance and uses of biotechnology in crop improvement. This book discusses as well the methods for inducing plant gene expression in heterologous prokaryotic and eukaryotic systems. The final chapter deals with the potential for using gene transfer technology for crop improvement. This book is a valuable resource for plant physiologists, biochemists, plant scientists, genetic engineers, and evolutionary biologists.
Advances in Cell Culture
Advances in Cell Culture, Volume 6 is a compilation of research papers in the field of cell culture. The contributions reflect the applications of cell culture to biotechnology, to the study of basic mechanisms of cellular behavior, and to the study of pathogens and diseases. This volume contains chapters that deal with the differentiation of human epidermal cells, cell injury, and regeneration in cell culture models; the description of the testing of anticancer compounds in cultured cells; and the interactions of cells and asbestos. Other contributions cover the production in plant tissue culture of the potent antimalarial drug, artemisinin; plant cell suspensions used for studying the mode of action of plant growth retardants; and the in vitro genetic manipulation of cereals and grasses. Also included is a biographical sketch of Nobel Laureate Renato Dulbecco, whose pioneering work on mammalian cell layers has had an enormous impact on cell culture and virology. Cell biologists and researchers who use in vitro techniques will find the book highly informative and insightful.
Plant Genome Diversity Volume 1
In this timely new 2-volume treatise, experts from around the world have banded together to produce a first-of-its-kind synopsis of the exciting and fast moving field of plant evolutionary genomics. In Volume I of Plant Genome Diversity, an update is provided on what we have learned from plant genome sequencing projects. This is followed by more focused chapters on the various genomic “residents” of plant genomes, including transposable elements, centromeres, small RNAs, and the evolutionary dynamics of genes and non-coding sequences. Attention is drawn to advances in our understanding of plant mitochondrial and plastid genomes, as well as the significance of duplication in genic evolution and the non-independent evolution among sequences in plant genomes. Finally, Volume I provides an introduction to the vibrant new frontier of plant epigenomics, describing the current state of our knowledge and the evolutionary implications of the epigenomic landscape.
Plant Molecular Biology Manual
Five years ago, the first edition of the Plant Molecular Biology Manual appeared. At that time, the editors felt that the field of plant molecular biology had matured to a point that the publication of a series of protocols in plant molecular biology was warranted. During the past five years, the field of plant molecular biology has expanded rapidly. This expansion is, among other things, reflected by the presence of several journals in the plant sciences, as well as by the increasing amount of plant sciences articles that are published in the more general journals. In 1991 approximately 3000 people attended the Third International Congress of Plant Molecular Biology in Tucson, Arizona, wher...
Genetic Engineering
Eleven contributions address topics that include: DNA methylases; the application of antisense RNA technology to plants; molecular genetics of self incompatibility; pulsed-field gel electrophoresis. Annotation copyright Book News, Inc. Portland, Or.
Maize
Forty chapters deal with various aspects of tissue culture, in vitro manipulation, and other biotechnological approaches to the improvement of maize. They are arranged in eight sections: - In Vitro Technology, Callus Cultures and Regeneration of Plants, Somatic Embryogenesis. - Wide Hybridization, Embryo, Ovule, and Inflorescence Culture, in Vitro Fertilization. - Production of Haploids and Double Haploids, Anther and Pollen Culture. - Protoplast Culture, Genetic Transformation. - Somaclonal Variation and Mutations. - Molecular Biology and Physiological Studies. - Proteins and Nutritional Improvement. Pollen Storage, Cryopreservation of Germplasm.
Plant DNA Infectious Agents
There has been recent rapid progress in the transformation of plants with foreign DNA, making use either of the natural routes of genetic invasion that viruses and bacteria have developed, or of chemical, mechanical and electrical tricks to make plant protoplast membranes permeable to nucleic acids. Genes integrated into plant virus genomes can be carried systemi cally from the initial site of infection into the rest of the plant. Genes placed between the borders of Agrobacterium tumefaciens T-DNA can be transferred into single cells or plant tissue, which then divides to produce wound calli, or as in the case of an Agrobacterium rhizogenes infection, grow out into new roots. Calli and roots...
Fundamentals of Epigenetics
Fundamentals of Epigenetics provides concise yet complete information on the many aspects of the basic and most recent concepts in epigenetics, a branch of life science that deals with the mechanisms such as DNA modifications, histone modifications, RNA modifications, small and long non-coding RNAs, chromatin remodeling, which are involved in epigenetic control of gene expression without involving variations in DNA sequences. These regulatory mechanisms lead to phenotypic variations. These epigenetic mechanisms can be exploited for crop improvement and cure of human diseases. This book is primarily designed for undergraduate and graduate level students studying epigenetics in conventional, agricultural and medicinal universities. Teachers and researchers in any discipline of life sciences, agricultural sciences, medicine, and biotechnology, molecular epigenetics and biotechnology will also find it useful as a reference book.
Plant Breeding Reviews, Volume 18
Plant Breeding Reviews is an ongoing series presenting state-of-the art review articles on research in plant genetics, especially the breeding of commercially important crops. Articles perform the valuable function of collecting, comparing, and contrasting the primary journal literature in order to form an overview of the topic. This detailed analysis bridges the gap between the specialized researcher and the broader community of plant scientists.
Molecular improvement of cereal crops
From the pre-historic era to modern times, cereal grains have been the most important source of human nutrition, and have helped sustain the increasing population and the development of human civilization. In order to meet the food needs of the 21st century, food production must be doubled by the year 2025, and nearly tripled by 2050. Such enormous increases in food productivity cannot be brought about by relying entirely on conventional breeding methods, especially on less land per capita, with poor quality and quantity of water, and under rapidly deteriorating environmental conditions. Complementing and supplementing the breeding of major food crops, such as the cereals, which together acc...
