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This volume contains contributions by some of the leading scientists in the field of thiol oxidation/reduction (redox) biochemistry. It is focused on the biological/pathophysiological implications of newly-discovered functions of cellular thiols, such as glutathione in the first place.
Antioxidants --- Thiols --- Glutathione --- Oxidation-reduction reaction --- Cell respiration --- Electron transfer reaction --- Oxido-reduction --- Redox reaction --- Chemical reactions --- Oligopeptides --- Mercaptans --- Mercapto compounds --- Thiol alcohols --- Organosulfur compounds --- Chemical inhibitors --- Cellular respiration --- Cell metabolism --- Respiration --- Physiological effect --- Antioxydants --- Glutathion --- Oxydoréduction --- Cellules --- Congresses. --- Congresses --- Congrès --- Effets physiologiques
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Cellular Respiration and Carcinogenesis informs the reader about both basic and recent research in the field of cellular respiration and the effects of its dysfunction, alteration or attenuation on the development of cancer. This masterfully compiled text by leading experts in the field, offers the reader a fundamental understanding about how oxygen sensing and/or availability, programmed cell death, immune recognition and response and glucose metabolism are intimately linked with the two major mechanisms or pathways of cellular respiration; oxidative phosphorylation and glycolysis. The editors and contributing authors proficiently and unequivocally address the effects of dysfunction of the mitochondrial oxidative phosphorylation/glycolysis (cellular respiration) mechanisms and pathways on the development of cancer. While it remains true that there are no universal truths in cancer, Cellular Respiration and Carcinogenesis opens the dialogue that the etiology of cancer can usually be associated with and significantly attributed to the failure of one or multiple pathways of oxidative phosphorylation to normally burn fuel to generate energy, vis-à-vis the Warburg hypothesis. Keeping with its cutting-edge nature, Cellular Respiration and Carcinogenesis provides the first glimpse of cautionary evidence based counterbalance to the recent and rapidly proliferating notion that utilization of fuel primarily via glycolysis is a hallmark of cancer development. About the Editors: Shireesh P.Apte, Ph.D has 10+ years experience in the pharmaceutical industry researching and formulating anti-cancer drugs. He holds one US patent and has 10+ related publications. He is a member of the US Pharmacopoeia excipients expert committee. Rangaprasad Sarangarajan, Ph.D. has over 10 years of research experience in an academic setting with extensive publications in areas of pharmacology & toxicology with focus on cancer treatment. He is active member of various professional organizations including the Society of Toxicology, American Society for Pharmacology & Toxicology and Pan American Society for Pigment Cell Research.
Cell respiration. --- Tumors --Etiology. --- Tumors --- Cell respiration --- Cell Respiration --- Oxidative Phosphorylation --- Glycolysis --- Metabolism --- Neoplasms --- Energy Metabolism --- Phosphorylation --- Carbohydrate Metabolism --- Metabolic Networks and Pathways --- Metabolic Phenomena --- Diseases --- Cell Physiological Processes --- Biochemical Processes --- Phenomena and Processes --- Cell Physiological Phenomena --- Chemical Processes --- Biochemical Phenomena --- Chemical Phenomena --- Oncology --- Cytology --- Biology --- Medicine --- Health & Biological Sciences --- Etiology --- Etiology. --- Cellular respiration --- Tumours --- Life sciences. --- Cell biology. --- Life Sciences. --- Cell Biology. --- Cell metabolism --- Respiration --- Pathology --- Cysts (Pathology)
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Human histology. Human cytology --- Molecular biology --- Genetics --- Pathology of the respiratory system --- Lungs --- Cell respiration --- Poumons --- Cellules --- Biologie moléculaire --- Lung --- Molecular Biology --- Physiology --- Periodicals --- Cytology --- Physiologie --- Périodiques --- Cytologie --- Respiration --- Lung. --- Molecular Biology. --- Cell respiration. --- Molecular biology. --- cytology. --- Cytology. --- Physiology. --- Biochemical Genetics --- Biology, Molecular --- Genetics, Biochemical --- Genetics, Molecular --- Molecular Genetics --- Biochemical Genetic --- Genetic, Biochemical --- Genetic, Molecular --- Molecular Genetic --- Chemistry --- Biochemistry --- General and Others --- cytology --- Health Sciences --- Life Sciences --- Genetic Phenomena --- Chemistry. --- General and Others. --- Health Sciences. --- Life Sciences. --- Molecular biochemistry --- Molecular biophysics --- Biophysics --- Biomolecules --- Systems biology --- Cellular respiration --- Cell metabolism --- Cardiopulmonary system --- Chest --- Respiratory organs --- Lungs. --- Lungs - Cytology - Periodicals --- Molecular biology - Periodicals --- Lungs - Physiology - Periodicals --- Cell respiration - Periodicals --- Lung - Periodicals --- Lung - cytology - Periodicals --- Molecular Biology - Periodicals
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The ability of cells to sense and respond to changes in oxygenation underlies a multitude of developmental, physiological, and pathological processes. This volume provides a comprehensive compendium of experimental approaches to the study of oxygen sensing in 48 chapters that are written by leaders in their fields.
Oxygen. --- Cell Hypoxia --- Oxygen --- Cell Physiological Phenomena --- Chalcogens --- Gases --- Cell Respiration --- Phenomena and Processes --- Elements --- Metabolism --- Inorganic Chemicals --- Cell Physiological Processes --- Metabolic Phenomena --- Chemicals and Drugs --- Animal Biochemistry --- Human Anatomy & Physiology --- Health & Biological Sciences --- Metabolic Phenomenon --- Metabolic Process --- Metabolism Concepts --- Metabolism Phenomena --- Process, Metabolic --- Processes, Metabolic --- Anabolism --- Catabolism --- Metabolic Concepts --- Metabolic Processes --- Concept, Metabolic --- Concept, Metabolism --- Concepts, Metabolic --- Concepts, Metabolism --- Metabolic Concept --- Metabolism Concept --- Phenomena, Metabolic --- Phenomena, Metabolism --- Phenomenon, Metabolic --- 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 --- Chemicals, Inorganic --- Cellular Respiration --- Respiration, Cell --- Cell Respirations --- Cellular Respirations --- Respiration, Cellular --- Dioxygen --- Anoxia, Cellular --- Cell Anoxia --- Hypoxia, Cellular --- Anoxia, Cell --- Anoxias, Cell --- Anoxias, Cellular --- Cell Anoxias --- Cell Hypoxias --- Cellular Anoxia --- Cellular Anoxias --- Cellular Hypoxia --- Cellular Hypoxias --- Hypoxia, Cell --- Hypoxias, Cell --- Hypoxias, Cellular --- physiology --- Group 16 Elements --- Elements, Group 16 --- Respiration --- Oxygen-16 --- Oxygen 16 --- Element
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A fascinating and richly illustrated exploration of the natural history of fungiWe know fungi are important, for us as well as the environment. But how they live, and what they can do, remains mysterious and surprising. Filled with stunning photographs, The Lives of Fungi presents an inside look into their hidden and extraordinary world.The wonders of fungi are myriad: a mushroom poking up through leaf litter literally overnight, or the sensational hit of umami from truffle shavings. Alexander Fleming cured infections with mold and spiritual guides have long used psychedelic mushrooms to enhance understanding. Then there are the tiny threads of fungi, called mycelium, that create a communications network for the natural world while decomposing organic matter. Combining engaging and accessible text with beautiful images, The Lives of Fungi lays out all the essential facts about fungi for the mycologically curious.
Fungi. --- Fungi --- Fungal kingdom --- Fungus kingdom --- Funguses --- Mycobiota --- Mycota --- Cryptogams --- Mycology --- Ecology. --- Agriculture. --- Ascomycota. --- Aspergillus sydowii. --- Aspergillus. --- Bacteria. --- Basidiomycota. --- Beauveria bassiana. --- Biodiversity. --- Biofuel. --- Biome. --- Biotechnology. --- Botany. --- Botrytis cinerea. --- Bracket fungus. --- Brassicaceae. --- Canopy (biology). --- Cell division. --- Cellular respiration. --- Chytridiomycota. --- Compost. --- Coprophilous fungi. --- Cultivar. --- Dutch elm disease. --- Ecosystem engineer. --- Edible mushroom. --- Endophyte. --- Epidermophyton. --- Fertilisation. --- Food chain. --- Food web. --- Fruit tree. --- Fungi imperfecti. --- Fungicide. --- Fungiculture. --- Fungus. --- Gasteroid fungi. --- Germination. --- Glomeromycota. --- Green algae. --- Herbivore. --- Jelly fungus. --- Macrophage (ecology). --- Marasmiaceae. --- Megafauna. --- Microbiological culture. --- Microbiota. --- Microorganism. --- Microsporidia. --- Microsporum canis. --- Microsporum. --- Mimicry. --- Mold. --- Mushroom. --- Mycology. --- Mycorrhiza. --- Mycotoxin. --- Obligate parasite. --- Ophiocordycipitaceae. --- Ovary (botany). --- Pancreas. --- Patchwork. --- Pathogen. --- Pathogenic fungus. --- Pathology. --- Peronosporaceae. --- Pest (organism). --- Phallaceae. --- Phylum. --- Phytophthora ramorum. --- Phytophthora. --- Plant cell. --- Plant community. --- Plant nutrition. --- Plant reproductive morphology. --- Plant. --- Pollination. --- Polypore. --- Receptacle (botany). --- Root-knot nematode. --- Rust (fungus). --- Saprotrophic nutrition. --- Schizophyllum commune. --- Seed dispersal. --- Seedling. --- Smut (fungus). --- Soil biology. --- Soybean rust. --- Spore print. --- Spore. --- Sporocarp (ferns). --- Tree farm. --- Tremella mesenterica. --- Tricholomataceae. --- Trichophyton. --- Truffle. --- Vineyard. --- Winery. --- Yeast in winemaking. --- Zygomycota.
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This book discusses biochemical adaptation to environments from freezing polar oceans to boiling hot springs, and under hydrostatic pressures up to 1,000 times that at sea level.Originally published in 1984.The Princeton Legacy Library uses the latest print-on-demand technology to again make available previously out-of-print books from the distinguished backlist of Princeton University Press. These editions preserve the original texts of these important books while presenting them in durable paperback and hardcover editions. The goal of the Princeton Legacy Library is to vastly increase access to the rich scholarly heritage found in the thousands of books published by Princeton University Press since its founding in 1905.
Adaptation (Physiology) --- Biochemistry. --- Biological chemistry --- Chemical composition of organisms --- Organisms --- Physiological chemistry --- Compensation (Physiology) --- Plasticity (Physiology) --- Composition --- Biology --- Chemistry --- Medical sciences --- Ecophysiology --- Biochemistry --- 57.017.32 --- 575.826 --- 575.826 Adaptation --- Adaptation --- Biologische wetenschappen in het algemeen. Biologie--?.017.32 --- 6-bisphosphatase. --- ATPase. --- Acid–base homeostasis. --- Adenosine monophosphate. --- Alanine. --- Alcohol dehydrogenase. --- Amino acid. --- Aminooxyacetic acid. --- Anabolism. --- Anaerobic glycolysis. --- Antifreeze. --- Arginine. --- Basal rate. --- Beta oxidation. --- Bohr effect. --- Carbohydrate. --- Carnitine. --- Catabolism. --- Catalase. --- Catalysis. --- Cellular respiration. --- Cofactor (biochemistry). --- Competitive inhibition. --- Cooperativity. --- Deep sea. --- Dehydrogenase. --- Detergent. --- Dissociation constant. --- Enzyme Repression. --- Enzyme inhibitor. --- Enzyme. --- Facultative anaerobic organism. --- Fatty acid. --- Fermentation. --- Flavin adenine dinucleotide. --- Fructose 1. --- Futile cycle. --- Glucagon. --- Gluconeogenesis. --- Glucose-6-phosphate dehydrogenase. --- Glucose. --- Glyceraldehyde 3-phosphate dehydrogenase. --- Glycerol. --- Glycogen phosphorylase. --- Glycogen. --- Glycogenolysis. --- Glycolysis. --- Hemoglobin. --- Hibernation. --- High-energy phosphate. --- Hill equation (biochemistry). --- Histidine. --- Hofmeister series. --- Hormone-sensitive lipase. --- Insulin. --- Isozyme. --- Ketosis. --- Lactic acid. --- Lipid. --- Lipolysis. --- Lysine. --- Mammalian diving reflex. --- Metabolic intermediate. --- Metabolism. --- Michaelis–Menten kinetics. --- Mitochondrial matrix. --- Mitochondrion. --- Molecular mimicry. --- Muscle. --- Nicotinamide adenine dinucleotide. --- Obligate anaerobe. --- Obligate. --- Organism. --- Ornithine. --- Osmolyte. --- Oxidative deamination. --- Peroxidase. --- Phosphagen. --- Phosphofructokinase. --- Phospholipid. --- Phosphorylase kinase. --- Proline. --- Proofreading (biology). --- Protein turnover. --- Protein. --- Proteolysis. --- Pyruvate carboxylase. --- Pyruvic acid. --- Redox. --- Regulatory enzyme. --- Root effect. --- Substrate-level phosphorylation. --- Thermoregulation. --- Thermus aquaticus. --- Thermus thermophilus. --- Triglyceride. --- Tryptophan. --- Turnover number. --- Urea cycle. --- Urea.
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A new way of thinking about the climate crisis as an exercise in delimiting knowable, and habitable, worlds As carbon dioxide emissions continue to rise, Earth’s fragile ecosystems are growing increasingly unstable and unpredictable. Horizon Work explores how climate change is disrupting our fundamental ability to project how the environment will act over time, and how rapidly faltering projections are colliding with the dangerous new realities of emergency respon se.Anthropologist Adriana Petryna examines the climate crisis through the lens of “horizoning,” a mode of reckoning that considers unnatural disasters against a horizon of expectation in which people and societies can act. She talks to wildfire scientists who, amid chaotic fire seasons and shifting fire behaviors, are revising predictive models calibrated to conditions that no longer exist. Petryna tells the stories of wildland firefighters who could once rely on memory of previous fires to gauge the behaviors of the next. Trust in patterns has become an occupational hazard. Sometimes, the very concept of projection becomes untenable. Yet if all we see is doom, we will overlook something crucial about the scientific and ethical labors needed to hold back climate chaos. Here is where the work of horizon ing begins.From experiments probing our planetary points of no return to disaster ecologies where the stark realities of climate change are being confronted, Horizon Work reveals how this new way of thinking has the power to reverse harmful legacies while turning voids where projection falters into spaces of collective action and recoverable futures.
Climate change mitigation. --- Climatic changes --- Forecasting. --- Social aspects. --- Albedo. --- Alternative stable state. --- Aluminium foil. --- Aquatic ecosystem. --- Archival research. --- Authorities (V franchise). --- Bifurcation theory. --- Bomb shelter. --- Bulldozer. --- Burial. --- Campsite. --- Carbon dioxide. --- Cell type. --- Cellular respiration. --- Cerro Grande Fire. --- Certainty. --- Climate change. --- Climate. --- Coal. --- Collective responsibility. --- Community leader. --- Convection. --- Coral reef. --- Creatinine. --- Cretaceous. --- Dead reckoning. --- Death rattle. --- Defensible space (fire control). --- Depiction. --- Developmental biology. --- Disaster. --- Drainage. --- Drought. --- Dust storm. --- Ecosystem. --- Entrapment. --- Environmental movement. --- Environmental policy. --- Epigenetics. --- Equipment operator. --- Fallout shelter. --- Fire regime. --- Fire shelter. --- Firefighter. --- Firefighting. --- Fishery. --- Food. --- Fossil fuel. --- Fuel. --- Future generation. --- Gaston Bachelard. --- Greenhouse gas. --- Heat transfer. --- Imperative mood. --- Instrumental temperature record. --- Interaction. --- Interagency hotshot crew. --- Interconnectivity. --- James Hansen. --- Lake Nyos. --- Lightning strike. --- Logging. --- National Oceanic and Atmospheric Administration. --- Natural selection. --- Necrosis. --- Other Losses. --- OurWorldInData. --- Phosphate. --- Predatory fish. --- Probability. --- Profiteering (business). --- Quantity. --- Regime shift. --- Result. --- Rodent. --- Scientist. --- Sea level rise. --- Seedbed. --- Snow. --- Soda lime. --- Soil. --- Strategic bombing. --- Structural engineer. --- Suicide mission. --- Sulfur dioxide. --- Survivability. --- Telecommunication. --- Textile. --- Thought experiment. --- Uncertainty. --- Vegetation. --- W. G. Sebald. --- Water cycle. --- Weather. --- Western United States. --- Wetland. --- Wilderness area. --- Wildfire. --- World War II. --- Year.
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Nitric oxide has proven to be a molecule with wide biological significance. It is involved in myriad actions which range from physiology to pathophysiology. One of the fundamental questions in relation to its biological relevance concerns the paradoxical nature of some of its actions. For example, there is a whole range of effects related to cytoprotection, cell proliferation, differentiation, and cell death. The way in which nitric oxide becomes involved in pathophysiology is slowly being elucidated. This volume contains a summary of the discussions that took place at the Second International Paraelios Symposium on Nitric Oxide research, and will make a significant contribution to this very exciting subject.Originally published in 1998.The Princeton Legacy Library uses the latest print-on-demand technology to again make available previously out-of-print books from the distinguished backlist of Princeton University Press. These editions preserve the original texts of these important books while presenting them in durable paperback and hardcover editions. The goal of the Princeton Legacy Library is to vastly increase access to the rich scholarly heritage found in the thousands of books published by Princeton University Press since its founding in 1905.
Nitric oxide --- Cell proliferation --- Cell differentiation --- Apoptosis --- Physiological effect --- Pathophysiology --- Molecular aspects --- 7-Chlorokynurenic acid. --- 7-Nitroindazole. --- AMPA receptor. --- AMPA. --- Aconitase. --- Activation. --- Alkaline phosphatase. --- Antioxidant. --- Apoptosis. --- Arginine. --- Aspartic acid. --- Bcl-2. --- Botulinum toxin. --- Carcinogenesis. --- Cell death. --- Cellular respiration. --- Chloral hydrate. --- Cyanide. --- Cyclooxygenase. --- Cyclothiazide. --- Cytochrome c oxidase. --- Cytostasis. --- Cytotoxicity. --- Dialysis. --- EGTA (chemical). --- Electron transport chain. --- Enantiomer. --- Endonuclease. --- Endothelial NOS. --- Ethylenediaminetetraacetic acid. --- Excitotoxicity. --- Exocytosis. --- Gliotoxin. --- Glomerulonephritis. --- Glutamic acid. --- Glutathione. --- Glyceraldehyde 3-phosphate dehydrogenase. --- Glycerol. --- Glycine. --- Hydrogen peroxide. --- IC50. --- Immortalised cell line. --- Immunoassay. --- Immunohistochemistry. --- Interferon. --- L1210 cells. --- Lipid peroxidation. --- Lipopolysaccharide. --- Lipoxygenase. --- Lysis. --- Macrophage. --- Methemoglobin. --- Mitochondrion. --- N-Methyl-D-aspartic acid. --- NMDA receptor. --- Necrosis. --- Nitration. --- Nitric oxide. --- Nitrite. --- Nitrosamine. --- Nitrosation. --- Nitroso. --- Nitrosylation. --- Nitrous oxide. --- Nitrovasodilator. --- Nocodazole. --- Norepinephrine. --- Oxidative stress. --- Oxide. --- Oxypurinol. --- P53. --- Penicillamine. --- Peroxide. --- Peroxynitrite. --- Phosphodiesterase inhibitor. --- Phosphodiesterase. --- Phospholipid. --- Pro-oxidant. --- Propidium iodide. --- Prostacyclin. --- Protonation. --- Pyruvic acid. --- Radical (chemistry). --- Reactive nitrogen species. --- Reuptake. --- S-Nitrosoglutathione. --- S-Nitrosylation. --- Sodium nitrite. --- Sodium nitroprusside. --- Somatostatin. --- Superoxide dismutase. --- Superoxide. --- T cell. --- TNF inhibitor. --- Tetanospasmin. --- Thromboxane A2. --- Transfection. --- Transition metal. --- Trifluoperazine. --- Xanthine oxidase.
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The critically acclaimed laboratory standard for more than forty years, Methods in Enzymology is one of the most highly respected publications in the field of biochemistry. Since 1955, each volume has been eagerly awaited, frequently consulted, and praised by researchers and reviewers alike. Now with more than 300 volumes (all of them still in print), the series contains much material still relevant today?truly an essential publication for researchers in all fields of life sciences.Key Features* Presents information on nitrosothiols and nitric oxide in cell signaling* De
Nitric oxide -- Pathophysiology. --- Nitric oxide -- Physiological effect. --- Nitric oxide. --- Nitric Oxide --- Nitric Oxide Synthase --- Cell Respiration --- Cell Communication --- Mitochondria --- Free Radicals --- Subcellular Fractions --- Nitrogen Oxides --- Reactive Nitrogen Species --- Amino Acid Oxidoreductases --- Organelles --- Cell Physiological Processes --- Metabolism --- Cell Physiological Phenomena --- Nitrogen Compounds --- Cellular Structures --- Inorganic Chemicals --- Oxides --- Metabolic Phenomena --- Oxidoreductases Acting on CH-NH2 Group Donors --- Cytoplasmic Structures --- Oxygen Compounds --- Cytoplasm --- Phenomena and Processes --- Chemicals and Drugs --- Cells --- Oxidoreductases --- Anatomy --- Enzymes --- Intracellular Space --- Enzymes and Coenzymes --- Animal Biochemistry --- Human Anatomy & Physiology --- Health & Biological Sciences --- Dehydrogenase --- Oxidase --- Reductase --- Dehydrogenases --- Oxidases --- Reductases --- Cell --- Protoplasm --- Cytoplasms --- Protoplasms --- Cytoplasmic Structure --- Structure, Cytoplasmic --- Structures, Cytoplasmic --- Metabolic Phenomenon --- Metabolic Process --- Metabolism Concepts --- Metabolism Phenomena --- Process, Metabolic --- Processes, Metabolic --- Anabolism --- Catabolism --- Metabolic Concepts --- Metabolic Processes --- Concept, Metabolic --- Concept, Metabolism --- Concepts, Metabolic --- Concepts, Metabolism --- Metabolic Concept --- Metabolism Concept --- Phenomena, Metabolic --- Phenomena, Metabolism --- Phenomenon, Metabolic --- Chemicals, Inorganic --- Cell Components --- Cell Component --- Cellular Structure --- Component, Cell --- Components, Cell --- Structure, Cellular --- Structures, Cellular --- Coenzymes and Enzymes --- Biocatalysts --- Anatomies --- Compounds, Nitrogen --- 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 --- Organelle --- Acid Oxidoreductases, Amino --- Oxidoreductases, Amino Acid --- Nitrogen Species, Reactive --- Species, Reactive Nitrogen --- Oxides, Nitrogen --- Fraction, Subcellular --- Fractions, Subcellular --- Subcellular Fraction --- Radicals, Free --- Mitochondrion --- Mitochondrial Contraction --- Contraction, Mitochondrial --- Contractions, Mitochondrial --- Mitochondrial Contractions --- Cell Interaction --- Cell-to-Cell Interaction --- Cell Communications --- Cell Interactions --- Cell to Cell Interaction --- Cell-to-Cell Interactions --- Communication, Cell --- Communications, Cell --- Interaction, Cell --- Interaction, Cell-to-Cell --- Interactions, Cell --- Interactions, Cell-to-Cell --- Cellular Respiration --- Respiration, Cell --- Cell Respirations --- Cellular Respirations --- Respiration, Cellular --- Endogenous Nitrate Vasodilator --- Mononitrogen Monoxide --- Nitric Oxide, Endothelium-Derived --- Nitrogen Monoxide --- Endothelium-Derived Nitric Oxide --- Monoxide, Mononitrogen --- Monoxide, Nitrogen --- Nitrate Vasodilator, Endogenous --- Nitric Oxide, Endothelium Derived --- Oxide, Nitric --- Vasodilator, Endogenous Nitrate --- physiology --- Compounds, Oxygen --- Oxidoreductases, Primary Amine --- Primary Amine Oxidoreductases --- Amine Oxidoreductases, Primary --- Oxidoreductases Acting on CH NH2 Group Donors --- Subcellular Space --- Intracellular Spaces --- Space, Intracellular --- Space, Subcellular --- Spaces, Intracellular --- Spaces, Subcellular --- Subcellular Spaces --- Nitric-Oxide Synthase --- Nitric-Oxide Synthetase --- NO Synthase --- Nitric Oxide Synthetase --- Oxide Synthase, Nitric --- Synthase, Nitric Oxide --- Cell Biology --- Molecular Mechanisms of Pharmacological Action --- Cell Fractionation --- Free Radical Scavengers --- Reactive Oxygen Species --- Respiration --- Nitric Oxide Donors --- Endothelium-Dependent Relaxing Factors --- Biocatalyst --- Enzyme --- Oxidoreductase --- Oxide --- Nitrogen Oxide --- Oxide, Nitrogen --- Free Radical --- Radical, Free
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