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GTPases in Cellular Signaling studies several aspects of cellular signaling including an extensive overview of GTPases and related concepts. It includes definitions of GTPASES in Signaling, GTPASES in Prokaryotes and latest trends in the cellular signaling. Provides the reader with insights into the development of its understanding, so as to innovate technologies in this context.
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Cellular signal transduction. --- Proteins. --- Protein-protein interactions.
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Plant cellular signal transduction. --- Plants --- Plant molecular biology. --- Effect of stress on. --- Molecular phytobiology --- Phytobiology, Molecular --- Botany --- Molecular biology --- Plants, Effect of stress on --- Stress (Physiology) --- Cellular signal transduction --- Plant cellular control mechanisms
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Senescence Signalling and Control in Plants discusses the studies showing the importance of hormone action on developmental senescence. It shows the involvement of various signaling components (such as EIN2, LOX2) and transcription factors (such as oresara1 or ORE1) in controlling hormonal activity during senescence. Further, the involvement of various micro RNAs (miR164, miR319) in regulating leaf senescence are discussed. Through this book, the authors throw light on all the reverse and forward genetic approaches to reveal the role of various other phytohormones regulating plant senescence and the molecular mechanisms involved. Chapters on relevant topics are contributed by experts working in the area, making this a comprehensive treatise designed to provide an in-depth analysis on the subject matter.--
Plant physiology. Plant biophysics --- Plant embryology and development --- Plant cellular signal transduction. --- Plants --- Effect of stress on --- Genetic aspects. --- Molecular aspects. --- Plant molecular biology --- Plant genetics --- Cellular signal transduction --- Plant cellular control mechanisms
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Plants provide a source of survival for all life on this planet. They are able to capture solar energy and convert it into food, feed, wood and medicines. Though sessile in nature, over many millions of years, plants have diversified and evolved from lower to higher life forms, spreading from sea level to mountains, and adapting to different ecozones. They have learnt to cope with challenging environmental conditions and various abiotic and biotic factors. Plants have also developed systems for monitoring the changing environment and efficiently utilizing resources for growth, flowering and reproduction, as well as mechanisms to counter the impact of pests and diseases and to communicate with other biological systems, like microbes and insects. This book discusses the “awareness” of plants and their ability to gather information through the perception of environmental cues, such as light, gravity, water, nutrients, touch and sound, and stresses. It also explores plants’ biochemical and molecular “computing” of the information to adjust their physiology and development to the advantage of the species. Further, it examines how plants communicate between their different organs and with other organisms, as well as the concepts of plant cognition, experience and memory, from both scientific and philosophical perspectives. Lastly, it addresses the phenomenon of death in plants. The epilogue presents an artist’s view of the beauty of the natural world, especially plant “architecture”. The book provides historical perspectives, comparisons with animal systems where needed, and general biochemical and molecular concepts and themes. Each chapter is selfcontained, but also includes cross talk with other chapters to offer an integrated view of plant life and allow readers to appreciate and admire the functioning of plant life from within and without. The book is a tribute by the Editor to his students, colleagues and co-workers and to those in whose labs he has worked.
Plant physiology. --- Plant anatomy. --- Plant development. --- Molecular ecology. --- Developmental biology. --- Environmental management. --- Plant Physiology. --- Plant Anatomy/Development. --- Molecular Ecology. --- Developmental Biology. --- Environmental Management. --- Environmental stewardship --- Stewardship, Environmental --- Environmental sciences --- Management --- Development (Biology) --- Biology --- Growth --- Ontogeny --- Ecology --- Molecular biology --- Development of plants --- Plant development --- Developmental biology --- Growth (Plants) --- Plants --- Botany --- Plant structure --- Structural botany --- Vegetable anatomy --- Anatomy --- Physiology --- Molecular aspects --- Structure --- Plant cellular signal transduction. --- Cellular signal transduction --- Plant cellular control mechanisms --- Fisiologia vegetal --- Biologia del desenvolupament
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This book describes nitric oxide (NO) and hydrogen peroxide (H2O2) functions in higher plants. Much progress has been made in the field of NO and H2O2 research regarding the various mechanisms and functions of these two molecules, particularly regarding stress tolerance and signaling processes, but there are still gaps to be filled. NO and H2O2 are both crucial regulators of development, and act as signaling molecules at each step of the plant lifecycle, while also playing important roles in biotic and abiotic responses to environmental cues. The book summarizes key advances in the field of NO and H2O2 research, focusing on a range of processes including: signaling, metabolism, seed germination, development, sexual reproduction, fruit ripening, and defense. .
Plant cellular signal transduction. --- Cellular signal transduction --- Plant cellular control mechanisms --- Plant physiology. --- Biochemistry. --- Plant anatomy. --- Plant diseases. --- Cytology. --- Plant Physiology. --- Plant Biochemistry. --- Plant Anatomy/Development. --- Plant Pathology. --- Oxidative Stress. --- Cell biology --- Cellular biology --- Biology --- Cells --- Cytologists --- Botany --- Communicable diseases in plants --- Crop diseases --- Crops --- Diseases of plants --- Microbial diseases in plants --- Pathological botany --- Pathology, Vegetable --- Phytopathology --- Plant pathology --- Plants --- Vegetable pathology --- Agricultural pests --- Crop losses --- Diseased plants --- Phytopathogenic microorganisms --- Plant pathologists --- Plant quarantine --- Plant structure --- Structural botany --- Vegetable anatomy --- Anatomy --- Biological chemistry --- Chemical composition of organisms --- Organisms --- Physiological chemistry --- Chemistry --- Medical sciences --- Physiology --- Pathology --- Diseases and pests --- Diseases --- Wounds and injuries --- Structure --- Composition --- Plant biochemistry. --- Plant development. --- Plant pathology. --- Oxidative stress. --- Oxidation-reduction reaction --- Stress (Physiology) --- Development of plants --- Plant development --- Developmental biology --- Growth (Plants) --- Phytochemistry --- Plant biochemistry --- Plant chemistry --- Biochemistry --- Phytochemicals --- Plant biochemical genetics --- Ontogeny
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