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Bacteria --- Bacteria --- Bacterial Processes. --- Cell interaction. --- Cellular signal transduction. --- Chemoreceptors. --- Quorum Sensing --- Signal Transduction --- Physiology. --- chemistry. --- physiology. --- physiology.
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KEY FEATURES:* Contains over 350 chapters of comprehensive coverage on cell signaling * Includes discussion on topics from ligand/receptor interactions to organ/organism responses* Provides user-friendly, well-illustrated, reputable content by experts in the fieldDESCRIPTION:Handbook of Cell Signaling, Three-Volume Set, 2e, is a comprehensive work covering all aspects of intracellular signal processing, including extra/intracellular membrane receptors, signal transduction, gene expression/translation, and cellular/organotypic signal responses. The second edition is an u
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This book addresses diverse aspects of signaling at all levels of plant organization, starting from single molecules; through vesicle recycling and organelles, dynamic actin cytoskeletons, and plant organs bending in response to sensory stimuli induced by abiotic cues such as gravity and light; up to the whole organism as related to its circadian clock or pathogen defense. Emphasis is placed on the integrative aspects of signaling, which foster our understanding of sensory and communicative plants in all their complexity.
Plant cellular signal transduction. --- Plant cellular signal transduction --- Botany --- Earth & Environmental Sciences --- Plant Physiology --- Botany - General --- Plant cells and tissues. --- Plant tissues --- Life sciences. --- Biochemistry. --- Plant biochemistry. --- Cell biology. --- Plant ecology. --- Plant science. --- Botany. --- Plant physiology. --- Life Sciences. --- Plant Sciences. --- Plant Physiology. --- Cell Biology. --- Plant Ecology. --- Plant Biochemistry. --- Biochemistry, general. --- Cells --- Plant anatomy --- Tissues --- Cellular signal transduction --- Plant cellular control mechanisms
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Divided into two major sections, this volume synthesizes recent findings in this fast-moving field while also reviewing accepted knowledge. The first part focuses on the antiviral signaling pathways in the host, including specific pattern recognition receptors (PRRs) and how these cellular alarms signal the innate immune response. The second section examines the ways in which specific major RNA virus families interact with, activate, and elude these signaling pathways and responses.
RNA viruses. --- Natural immunity. --- Cellular signal transduction. --- Virus diseases --- Cellular information transduction --- Information transduction, Cellular --- Signal transduction, Cellular --- Bioenergetics --- Cellular control mechanisms --- Information theory in biology --- Disease resistance --- Host resistance --- Innate immunity --- Innate resistance --- Native immunity --- Natural resistance --- Nonspecific immunity --- Resistance to disease --- Immunity --- Riboviruses --- Viruses, RNA --- Viruses --- Immunological aspects. --- RNA Viruses --- Immunity, Innate --- Signal Transduction --- Virus à ARN --- Immunité naturelle --- Transduction du signal cellulaire --- Maladies à virus --- immunology. --- Immunologie
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In Guide to Signal Pathways in Immune Cells, Nigel E. Wardle presents vital information in regards to white cells, like the neutrophils and macrophages, T and B lymphocytes, natural killer cells and mast cells, as they constitute the immune defenses against microbial invaders or tumor cells. In all such cells the necessary information processing for their activities utilizes a network of intracellular signaling pathways. As a guide this book aims to extend understanding of the basic signal transduction pathways that will be suitable for students of immunology or cell biology and for medical personnel at all levels.
Cellular signal transduction. --- Immune system. --- Immune system --- Cellular signal transduction --- Hemic and Immune Systems --- Immune System Phenomena --- Biochemical Processes --- Cell Physiological Processes --- Phenomena and Processes --- Chemical Processes --- Cell Physiological Phenomena --- Anatomy --- Biochemical Phenomena --- Chemical Phenomena --- Immune System Processes --- Immune System --- Signal Transduction --- Biology --- Health & Biological Sciences --- Microbiology & Immunology --- Immunity. --- Immunological system --- Cellular information transduction --- Information transduction, Cellular --- Signal transduction, Cellular --- Medicine. --- Immunology. --- Biochemistry. --- Cell biology. --- Biomedicine. --- Cell Biology. --- Biochemistry, general. --- Immunology --- Bioenergetics --- Cellular control mechanisms --- Information theory in biology --- Cytology. --- Biological chemistry --- Chemical composition of organisms --- Organisms --- Physiological chemistry --- Chemistry --- Medical sciences --- Cell biology --- Cellular biology --- Cells --- Cytologists --- Immunobiology --- Life sciences --- Serology --- Composition
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The enormous recent success of molecular developmental biology has yielded a vast amount of new information on the details of development. So much so that we risk losing sight of the underlying principles that apply to all development. To cut through this thicket, John Tyler Bonner ponders a moment in evolution when development was at its most basic--the moment when signaling between cells began. Although multicellularity arose numerous times, most of those events happened many millions of years ago. Many of the details of development that we see today, even in simple organisms, accrued over a long evolutionary timeline, and the initial events are obscured. The relatively uncomplicated and easy-to-grow cellular slime molds offer a unique opportunity to analyze development at a primitive stage and perhaps gain insight into how early multicellular development might have started. Through slime molds, Bonner seeks a picture of the first elements of communication between cells. He asks what we have learned by looking at their developmental biology, including recent advances in our molecular understanding of the process. He then asks what is the most elementary way that polarity and pattern formation can be achieved. To find the answer, he uses models, including mathematical ones, to generate insights into how cell-to-cell cooperation might have originated. Students and scholars in the blossoming field of the evolution of development, as well as evolutionary biologists generally, will be interested in what Bonner has to say about the origins of multicellular development--and thus of the astounding biological complexity we now observe--and how best to study it.
Cell interaction. --- Cells -- Evolution. --- Developmental biology. --- Developmental cytology. --- Cell Differentiation --- Signal Transduction --- Biological Evolution --- Genetic Processes --- Cell Physiological Processes --- Biochemical Processes --- Biological Processes --- Biochemical Phenomena --- Biological Phenomena --- Cell Physiological Phenomena --- Chemical Processes --- Genetic Phenomena --- Phenomena and Processes --- Chemical Phenomena --- Biophysics --- Biology --- Health & Biological Sciences --- Biologic Phenomena --- Biological Phenomenon --- Biological Process --- Phenomena, Biological --- Phenomena, Biologic --- Phenomenon, Biological --- Process, Biological --- Processes, Biological --- Biochemical Concepts --- Biochemical Phenomenon --- Biochemical Process --- Phenomena, Biochemical --- Biochemical Concept --- Concept, Biochemical --- Concepts, Biochemical --- Phenomenon, Biochemical --- Process, Biochemical --- Processes, Biochemical --- Molecular Biology --- Cell Physiological Phenomenon --- Cell Physiological Process --- Physiology, Cell --- Cell Physiology --- Phenomena, Cell Physiological --- Phenomenon, Cell Physiological --- Physiological Process, Cell --- Physiological Processes, Cell --- Process, Cell Physiological --- Processes, Cell Physiological --- Cells --- Genetic Concepts --- Genetic Phenomenon --- Genetic Process --- Concept, Genetic --- Concepts, Genetic --- Genetic Concept --- Phenomena, Genetic --- Phenomenon, Genetic --- Process, Genetic --- Processes, Genetic --- Evolution, Biological --- Sociobiology --- Receptor Mediated Signal Transduction --- Signal Transduction Pathways --- Signal Transduction Systems --- Cell Signaling --- Receptor-Mediated Signal Transduction --- Signal Pathways --- Pathway, Signal --- Pathway, Signal Transduction --- Pathways, Signal --- Pathways, Signal Transduction --- Receptor-Mediated Signal Transductions --- Signal Pathway --- Signal Transduction Pathway --- Signal Transduction System --- Signal Transduction, Receptor-Mediated --- Signal Transductions --- Signal Transductions, Receptor-Mediated --- System, Signal Transduction --- Systems, Signal Transduction --- Transduction, Signal --- Transductions, Signal --- Cell Communication --- Receptor-CD3 Complex, Antigen, T-Cell --- Receptor Cross-Talk --- Feedback, Physiological --- Gasotransmitters --- Differentiation, Cell --- Cell Differentiations --- Differentiations, Cell --- Embryo, Mammalian --- Gene Expression Regulation --- Cell Lineage --- Chemical Phenomenon --- Chemical Process --- Physical Chemistry Phenomena --- Physical Chemistry Process --- Physicochemical Phenomenon --- Physicochemical Process --- Chemical Concepts --- Physical Chemistry Concepts --- Physical Chemistry Processes --- Physicochemical Concepts --- Physicochemical Phenomena --- Physicochemical Processes --- Chemical Concept --- Chemistry Process, Physical --- Chemistry Processes, Physical --- Concept, Chemical --- Concept, Physical Chemistry --- Concept, Physicochemical --- Concepts, Chemical --- Concepts, Physical Chemistry --- Concepts, Physicochemical --- Phenomena, Chemical --- Phenomena, Physical Chemistry --- Phenomena, Physicochemical --- Phenomenon, Chemical --- Phenomenon, Physicochemical --- Physical Chemistry Concept --- Physicochemical Concept --- Process, Chemical --- Process, Physical Chemistry --- Process, Physicochemical --- Processes, Chemical --- Processes, Physical Chemistry --- Processes, Physicochemical --- physiology --- Cell interaction --- Developmental biology --- Developmental cytology --- 57.017.22 --- 575.853 --- Cell evolution --- Cellular evolution --- Evolution (Biology) --- Evolution --- 575.853 The cell and subcellular structure --- The cell and subcellular structure --- 57.017.22 Origin. Formation. Precursors --- Origin. Formation. Precursors --- Cytology --- Development (Biology) --- Growth --- Ontogeny --- Cell-cell interaction --- Cell communication --- Cellular communication (Biology) --- Cellular interaction --- Intercellular communication --- Cellular control mechanisms --- Signal Transduction. --- Biological Evolution. --- Cell Differentiation. --- Origin of Life. --- Genesis of Life --- Life Geneses --- Life Genesis --- Life Origin --- Life Origins --- Organelle Biogenesis --- Prebiotic Chemical Evolution --- Chemical Evolution, Prebiotic --- Evolution, Prebiotic Chemical --- Prebiotic Chemical Evolutions
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Apoptosis: Involvement of Oxidative Stress and Intracellular Ca2+ Homeostasis, presents a concise synthesis of the current knowledge and recent advances in the mechanisms of apoptosis in different cells and the role of oxidative stress and Ca2+ signalling. Particular attention is given to the different features of apoptosis in distinct cell types, ranging from hepatocytes to cardiovascular and blood cells, nervous cells or spermatozoa. Cutting-edge and user-friendly, this volume serves as a comprehensive resource for those interested in the fascinating biological processes associated to programmed cell death or apoptosis. The book is divided in two major chapter sections: general mechanisms of the apoptotic pathways and the role of oxidative stress and intracellular Ca2+ homeostasis and a more specific section dedicated to the specificities of apoptosis in a number of excitable and non-excitable cells. All of the contributions are from specialists in the field and the reviews presented, systemically examine the most exciting and innovative aspects of the apoptotic pathways in their particular areas of expertise.
Apoptosis. --- Cellular signal transduction. --- Homeostasis. --- Intracellular calcium. --- Oxidative stress. --- Apoptosis --- Oxidative stress --- Intracellular calcium --- Cellular signal transduction --- Homeostasis --- Cell Death --- Second Messenger Systems --- Ion Transport --- Physiological Processes --- Stress, Physiological --- Metabolism --- Metabolic Phenomena --- Cell Physiological Processes --- Biological Transport --- Physiological Phenomena --- Signal Transduction --- Phenomena and Processes --- Biochemical Processes --- Cell Physiological Phenomena --- Biochemical Phenomena --- Chemical Processes --- Chemical Phenomena --- Oxidative Stress --- Calcium Signaling --- Biology --- Health & Biological Sciences --- Cytology --- Cell metabolism. --- Cells --- Medicine. --- Cancer research. --- Oncology. --- Cell biology. --- Cell physiology. --- Biomedicine. --- Cancer Research. --- Cell Biology. --- Cell Physiology. --- Cell death --- Cellular control mechanisms --- Oncology . --- Cytology. --- Cell function --- Physiology --- Cell biology --- Cellular biology --- Cytologists --- Tumors --- Cancer research
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Until recent years the production of reactive oxygen species (ROS) was generally considered to be a harmful process and a generator of oxidative stress. But more recently this concept has been re-evaluated and the term "oxidative signaling" was coined (Foyer and Noctor, 2005). This means that ROS generation is also an important component of the signaling network of plants. Results obtained during the last decade have highlighted that ROS are key regulators of plant metabolism, morphology and development which are also used by plants to respond to environmental challenges. The role of ROS as signals for gene expression has been established, and ROS also modulate the activity of key signaling compounds such as MAP kinases. The volume of research into the roles of ROS in plants is currently growing and the purpose of this book is to present recent advances in this field. The constitutive chapters are arranged around four main topics: - The generation of ROS and their network signaling, including the retrograde signaling from the chloroplast to the nucleus and the cross-talk with hormone signaling -The signaling role of ROS produced in some sub-cellular compartments -The role of ROS in plant growth, development, functioning and stress acclimation -Their role in biotic and abiotic interactions.
Active oxygen. --- Plant cellular signal transduction. --- Cellular signal transduction --- Plant cellular control mechanisms --- Oxygen radicals --- Reactive oxygen --- Singlet oxygen --- Superperoxide anion --- Free radicals (Chemistry) --- Ionization of gases --- Oxygen --- Plant physiology. --- Biochemistry. --- Botany. --- Plant Physiology. --- Plant Biochemistry. --- Plant Sciences. --- Botanical science --- Phytobiology --- Phytography --- Phytology --- Plant biology --- Plant science --- Biology --- Natural history --- Plants --- Biological chemistry --- Chemical composition of organisms --- Organisms --- Physiological chemistry --- Chemistry --- Medical sciences --- Botany --- Physiology --- Composition --- Plant biochemistry. --- Plant science. --- Phytochemistry --- Plant biochemistry --- Plant chemistry --- Biochemistry --- Phytochemicals --- Plant biochemical genetics --- Floristic botany
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During recent years, research has greatly expanded our understanding of the sophisticated molecular network of responses which enable plants to develop, survive and propagate under a wide range of conditions. In Plant Signal Transduction: Methods and Protocols, an international panel of experts provide well-established methods vital to analyzing plant signal transduction on the molecular level. Featuring experimental procedures on several of the most popular model organisms, the volume focuses on in planta analyses and the proteins involved in signal transduction in order to aid with the establishment of laboratory techniques or the modification of the protocols for other plants. As part of the highly successful Methods in Molecular Biology™ series, the chapters include brief introductions to the subject, lists of necessary materials, readily reproducible laboratory protocols, and tips on trouble-shooting and avoiding known pitfalls. Comprehensive and cutting-edge, Plant Signal Transduction: Methods and Protocols will benefit plant scientists wishing to improve their experimental approaches and delve further into this exciting and important field of study.
Plant cellular signal transduction --- Plant molecular biology --- Growth and Development --- Signal Transduction --- Gene Expression Regulation, Plant --- Plant Physiological Phenomena --- Plants --- Gene Expression Regulation --- Physiological Processes --- Cell Physiological Processes --- Biochemical Processes --- Phenomena and Processes --- Eukaryota --- Chemical Processes --- Genetic Processes --- Physiological Phenomena --- Organisms --- Cell Physiological Phenomena --- Biochemical Phenomena --- Chemical Phenomena --- Genetic Phenomena --- Plant Physiology --- Botany --- Earth & Environmental Sciences --- Plant cellular signal transduction. --- Plant molecular biology. --- Transduction du signal cellulaire chez les plantes. --- Transduction du signal. --- Gene Expression Regulation, Plant. --- Plant Physiological Phenomena. --- Signal Transduction. --- growth & development. --- Genetic Concepts --- Genetic Phenomenon --- Genetic Process --- Concept, Genetic --- Concepts, Genetic --- Genetic Concept --- Phenomena, Genetic --- Phenomenon, Genetic --- Process, Genetic --- Processes, Genetic --- Chemical Phenomenon --- Chemical Process --- Physical Chemistry Phenomena --- Physical Chemistry Process --- Physicochemical Phenomenon --- Physicochemical Process --- Chemical Concepts --- Physical Chemistry Concepts --- Physical Chemistry Processes --- Physicochemical Concepts --- Physicochemical Phenomena --- Physicochemical Processes --- Chemical Concept --- Chemistry Process, Physical --- Chemistry Processes, Physical --- Concept, Chemical --- Concept, Physical Chemistry --- Concept, Physicochemical --- Concepts, Chemical --- Concepts, Physical Chemistry --- Concepts, Physicochemical --- Phenomena, Chemical --- Phenomena, Physical Chemistry --- Phenomena, Physicochemical --- Phenomenon, Chemical --- Phenomenon, Physicochemical --- Physical Chemistry Concept --- Physicochemical Concept --- Process, Chemical --- Process, Physical Chemistry --- Process, Physicochemical --- Processes, Chemical --- Processes, Physical Chemistry --- Processes, Physicochemical --- Biochemical Concepts --- Biochemical Phenomenon --- Biochemical Process --- Phenomena, Biochemical --- Biochemical Concept --- Concept, Biochemical --- Concepts, Biochemical --- Phenomenon, Biochemical --- Process, Biochemical --- Processes, Biochemical --- Cell Physiological Phenomenon --- Cell Physiological Process --- Physiology, Cell --- Cell Physiology --- Phenomena, Cell Physiological --- Phenomenon, Cell Physiological --- Physiological Process, Cell --- Physiological Processes, Cell --- Process, Cell Physiological --- Processes, Cell Physiological --- Cells --- Physiological Concepts --- Physiological Phenomenon --- Physiological Process --- Concept, Physiological --- Concepts, Physiological --- Phenomena, Physiological --- Phenomenas, Physiological --- Phenomenon, Physiological --- Physiological Concept --- Process, Physiological --- Processes, Physiological --- Eucarya --- Eukarya --- Eukaryotes --- Eukaryotas --- Eukaryote --- Expression Regulation, Gene --- Regulation, Gene Action --- Regulation, Gene Expression --- Gene Action Regulation --- Regulation of Gene Expression --- Plant --- Physiology, Plant --- Plant Physiologic Phenomena --- Plant Physiologic Phenomenon --- Plant Physiological Phenomenon --- Plant Physiological Process --- Plant Physiological Processes --- Phenomena, Plant Physiologic --- Phenomena, Plant Physiological --- Phenomenon, Plant Physiologic --- Phenomenon, Plant Physiological --- Phenomenons, Plant Physiological --- Physiologic Phenomena, Plant --- Physiologic Phenomenon, Plant --- Physiological Phenomena, Plant --- Physiological Phenomenon, Plant --- Physiological Phenomenons, Plant --- Physiological Process, Plant --- Physiological Processes, Plant --- Plant Physiological Phenomenons --- Process, Plant Physiological --- Processes, Plant Physiological --- Regulation, Gene Expression, Plant --- Plant Gene Expression Regulation --- Regulation of Gene Expression, Plant --- Receptor Mediated Signal Transduction --- Signal Transduction Pathways --- Signal Transduction Systems --- Receptor-Mediated Signal Transduction --- Signal Pathways --- Pathway, Signal --- Pathway, Signal Transduction --- Pathways, Signal --- Pathways, Signal Transduction --- Receptor-Mediated Signal Transductions --- Signal Pathway --- Signal Transduction Pathway --- Signal Transduction System --- Signal Transduction, Receptor-Mediated --- Signal Transductions --- Signal Transductions, Receptor-Mediated --- System, Signal Transduction --- Systems, Signal Transduction --- Transduction, Signal --- Transductions, Signal --- Development and Growth --- Molecular phytobiology --- Phytobiology, Molecular --- physiology --- Life sciences. --- Plant biochemistry. --- Plant science. --- Botany. --- Plant physiology. --- Life Sciences. --- Plant Physiology. --- Plant Sciences. --- Plant Biochemistry. --- Physiology --- Botanical science --- Phytobiology --- Phytography --- Phytology --- Plant biology --- Plant science --- Biology --- Natural history --- Phytochemistry --- Plant biochemistry --- Plant chemistry --- Biochemistry --- Phytochemicals --- Plant biochemical genetics --- Biosciences --- Sciences, Life --- Science --- Biochemistry. --- Biological chemistry --- Chemical composition of organisms --- Physiological chemistry --- Chemistry --- Medical sciences --- Composition --- Floristic botany --- Fisiologia vegetal --- Transducció de senyal cel·lular --- Fitoquímica --- Manuals de laboratori --- Tècniques de laboratori --- Bioquímica de les plantes --- Bioquímica vegetal --- Botànica química --- Química botànica --- Química de les plantes --- Química vegetal --- Bioquímica --- Hormones vegetals --- Pigments vegetals --- Proteïnes vegetals --- Biologia molecular vegetal --- Transducció de la informació cel·lular --- Regulació cel·lular --- Missatgers secundaris (Bioquímica) --- Botànica --- Absorció de l'aigua en les plantes --- Assimilació de les plantes --- Creixement (Plantes) --- Ecofisiologia vegetal --- Fecundació de les plantes --- Fisiologia postcollita --- Ritmes biològics en les plantes --- Floració --- Germinació --- Metabolisme de les plantes --- Moviments de les plantes --- Nutrició vegetal --- Reproducció de les plantes --- Respiració de les plantes --- Saprofitisme --- Tropisme
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