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Modern plant science research currently integrates biochemistry and molecular biology. This book highlights recent trends in plant biotechnology and molecular genetics, serving as a working manual for scientists in academic, industrial, and federal laboratories. A wide variety of authors have contributed to this book, reflecting the thinking and expertise of active investigators who generate advances in technology. The authors were selected especially for their ability to create and/or implement novel research methods.
Biochemistry and Molecular Biology of Plants, 2nd Edition has been hailed as a major contribution to the plant sciences literature and critical acclaim has been matched by global sales success. Maintaining the scope and focus of the first edition, the second will provide a major update, include much new material and reorganise some chapters to further improve the presentation. This book is meticulously organised and richly illustrated, having over 1,000 full-colour illustrations and 500 photographs. It is divided into five parts covering: Compartments, Cell Reproduction, Energy Flow, Metabolic and Developmental Integration, and Plant Environment and Agriculture. Specific changes to this edition include: Completely revised with over half of the chapters having a major rewrite. Includes two new chapters on signal transduction and responses to pathogens. Restructuring of section on cell reproduction for improved presentation. Dedicated website to include all illustrative material. Biochemistry and Molecular Biology of Plants holds a unique place in the plant sciences literature as it provides the only comprehensive, authoritative, integrated single volume book in this essential field of study.
Plant Biochemistry and Molecular Biology Second Edition Edited by Peter J. Lea Department of Biological Sciences, Lancaster University, UK and Richard C. Leegood Department of Animal and Plant Sciences, University of Sheffield, UK As research in plant metabolism and molecular biology continues to make great progress it has become essential for plant scientists to have an overview of both disciplines, which are becoming increasingly complementary in understanding plant function. Drawing on their own teaching and research experience, the editors and contributors have provided a timely, comprehensive and generously illustrated new edition of this successful introductory textbook. All of the chapters have been updated and revised, and a new chapter on secondary metabolism has been included. Plant Biochemistry and Molecular Biology will be invaluable to undergraduate and postgraduate students in the plant sciences and to all those requiring an introduction to current concepts in molecular plant science. Reviews of the First Edition "The aim of the editors to blend plant biochemistry with molecular biology is successfully reached and provided a new, well written text book which is easy to read." Journal of Plant Physiology "The contributing chapters are well written with clear illustrations and I would expect undergraduates, to whom this book is primarily targeted, to enjoy using it." New Phytologist "The evident teaching experience of the authors make this textbook a useful aid to students and researchers." Photosynthetica What the lecturers said about the First Edition: "A very useful text with a good balance of traditional biochemistry and molecular biology. Its usefulness is enhanced by a very clear and visually pleasing layout and the generally high quality and clarity of the writing." "A surprising amount of information in an easily accessible format." "Good coverage and depth. I’m not aware of any other book that deals with this material so well as this one. It addresses a real need in plant science teaching."
This book explains the advancements of plant biotechnology and advanced molecular biology and explores the details of influential tools that complement conventional breeding and accelerate the development of plants resilient to adverse agroclimatic conditions and biofortified plants. Plant biotechnology from the basic sciences to current applications, such as pathway engineering, precursor feeding, transformation, elicitation with biotic and abiotic elicitors, and scaling up in bioreactors, have been included in these chapters to improve the production of secondary metabolites from different medicinal plants. It also highlights important factors often overlooked by methodologies used to develop plants' tolerance against biotic and abiotic stresses and in developing special foods, bio-chemicals, and pharmaceuticals. This book is valuable for researchers or students working on biosciences. It is also an updated and advanced reference material for the agriculture and pharmaceutical industries.
Practical Applications of Plant Molecular Biology is an important new title which covers the major techniques and how they are applied to a range of vitally important areas. Divided broadly into four sections, this book covers key subjects including the identification of plants and plant pathogens using molecular techniques, the estimation of genetic variation in plants, the use of molecular markers in plant improvement and the use of plant transformation techniques for the improvement of quality and the introduction of resistance. Also included is a comprehensive listing and description of the most frequently used techniques and a set of appendices covering useful topics of reference for the reader. All undergraduates studying plant sciences, molecular biology, biotechnology and agricultural sciences would benefit from having access to this title as would those studying for upper-level Masters courses concentrating on the disciplines covered. This book also provides an invaluable source of reference for professionals in agriculture, plant breeding, crop protection and improvement, biotechnology and molecular biology.
Plant biochemistry and molecular biology are significant sub-disciplines of botany. They are closely linked and help in understanding plant mechanisms. This book aims to delve into the advanced topics in these fields such as plant genetics, plant biotechnology, plant diversity, conservation biology, interactions between plants and other organisms, etc. This book brings together case studies from different parts of the world to keep the readers updated with the latest concepts in these fields. This book will prove beneficial to students and professionals alike.
1 A Leaf Cell Consists of Several Metabolic Compartments 2 The Use of Energy from Sunlight by Photosynthesis is the Basis of Life on Earth 3 Photosynthesis is an Electron Transport Process 4 ATP is Generated by Photosynthesis 5 Mitochondria are the Power Station of the Cell 6 The Calvin Cycle Catalyzes Photosynthetic CO2 Assimilation 7 In the Photorespiratory Pathway Phosphoglycolate Formed by the Oxygenase Activity of RubisCo is Recycled 8 Photosynthesis Implies the Consumption of Water 9 Polysaccharides are Storage and Transport Forms of Carbohydrates Produced by Photosynthesis 10Nitrate Assimilation is Essential for the Synthesis of Organic Matter 11 Nitrogen Fixation Enables the Nitrogen in the Air to be Used for Plant Growth 12 Sulfate Assimilation Enables the Synthesis of Sulfur Containing Substances 13 Phloem Transport Distributes Photoassimilates to the Various Sites of Consumption and Storage 14 Products of Nitrate Assimilation are Deposited in Plants as Storage Proteins 15 Glycerolipids are Membrane Constituents and Function as Carbon Stores 16 Secondary Metabolites Fulfill Specific Ecological Functions in Plants 17 Large Diversity of Isoprenoids has Multiple Funtions in Plant Metabolism 18 Phenylpropanoids Comprise a Multitude of Plant Secondary Metabolites and Cell Wall Components 19 Multiple Signals Regulate the Growth and Development of Plant Organs and Enable Their Adaptation to Environmental Conditions 20 A Plant Cell has Three Different Genomes 21 Protein Biosynthesis Occurs at Different Sites of a Cell 22 Gene Technology Makes it Possible to Alter Plants to Meet Requirements of Agriculture, Nutrition, and Industry.