Plant Biotechnology and Transgenic Plants

Plant Biotechnology - An Emerging Field. Plant-Derived Drugs and Extracts. Industrial Strategies for the Discovery of Bioactive Compounds from Plants. Plant Cell and Tissue Culture Techniques Used in Plant Breeding. Plant Cell Cultures as Producers of Secondary Compounds. Genetic Transformation of Plants and Their Cells. Properties and Applications of Hairy Root Cultures. Bioreactors for Plant Cell and Tissue Cultures. The Potential Contribution of Plant Biotechnology to Improving Food Quality. Engineering Plant Biochemical Pathways for Improved Nutritional Quality. Transgenic Plants as Producers of Modified Starch and Other Carobhydrates. Improving the Nutritional Quality and Functional Properties of Seed Proteins by Genetic Engineering. Transgenic Plants as Sources of Modified Oils. Flavors and Fragrances from Plants. Fine Chemicals from Plants. Genetic Engineering of the Plant Cell Factory for Secondary Metabolite Production: Indole Alkaloid Production in Catharanthus roseusas a Model. Transgenic Plants for Production of Immunotherapeutic Agents. Signal Transduction Elements. The Plant Cell Wall - Structural Aspects and Biotechnological Developments. Liginin Genetic Engineering: A Way to Better Understand Lignification beyond Applied Objectives. Transgenic Plants Expressing Tolerance Toward Oxidative Stress. Transgenic Plants with Increased Tolerance against Viral Pathogens. Transgenic Plants with Enhanced Tolerance against Microbial Pathogens. Transgenic Crop Plants with Increased Tolerance to Insect Pests. Transgenic Herbicide Resistant Crops - Advantages, Drawbacks and Failsafes. Plants and Environmental Stress Adaptation Strategies. Molecular Mechanisms that Control Plant Tolerance to Heavy Metals and Possible Roles in Manipulating Metal Accumulation. Index.