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Nitric oxide (NO) is a gas that transmits signals in an organism. Signal transmission by a gas that is produced by one cell and which penetrates through membranes and regulates the function of another cell represents an entirely new principle for signaling in biological systems. NO is a signal molecule of key importance for the cardiovascular system acting as a regulator of blood pressure and as a gatekeeper of blood flow to different organs. NO also exerts a series of other functions, such as acting a signal molecule in the nervous system and as a weapon against infections. NO is present in most living creatures and made by many different types of cells. NO research has led to new treatments for treating heart as well as lung diseases, shock, and impotence. Scientists are currently testing whether NO can be used to stop the growth of cancerous tumors, since the gas can induce programmed cell death, apoptosis. This book is the first comprehensive text on nitric oxide to cover all aspects--basic biology, chemistry, pathobiology, effects on various disease states, and therapeutic implications. - Edited by Nobel Laureate Louis J. Ignarro, editor of the Academic Press journal, Nitric Oxide - Authored by world experts on nitric oxide - Includes an overview of basic principles of biology and chemical biology - Covers principles of pathobiology, including the nervous system, cardiovascular function, pulmonary function, and immune defense
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.
"Provides the latest advances in the explosive growth of nitric oxide (NO) study-covering the behavior of this highly reactive molecule in a wide variety of physiologicial processes, including respiration, blood pressure, neurotransmission, nospecific host defense, and wound healing."
This book fills in a gap in the NO literature. Recent progress in the field of NO-biology shows that NO is generated within distinct cell compartments, including specific plasma membrane regions, mitochondria, chloroplasts, peroxisomes, the Golgi-complex and intracellular membrane systems. NO synthesis plays specific roles in these compartments and, in turn, cell organelles also control intracellular NO levels. This monograph focuses on the roles played by the subcellular NO-signaling microdomains in the prokaryote-, fungus-, plant- and animal cells and shows how NO behaves as an intracellular signal in distinct cellular environments. This monograph also provides a summary of our knowledge on how NO synthesis came through evolution to be associated with organelles and subcellular compartments. Promotes the novel ideas that some functions of NO and its associations with subcellular units have been conserved during the evolution of the cell. A special chapter is dedicated to the biomedical relevance of subcellular NO synthesis, and this chapter also discusses the evidence that altered compartmentalization of NO-producing enzymes causes disease.
Nitric Oxide: Biology and Pathobiology, Third Edition, provides information on nitric oxide, a signaling molecule of key importance for the cardiovascular system that regulates blood pressure and blood flow to different organs. With recent links to the role of nitric oxide in the expression of healthy benefits of controlled diet and aerobic exercise, and the reactions of nitric oxide that can impact cell signaling, this book provides a comprehensive resource during a time when increased research attention is being paid across the fields of pharmacology, biochemistry, cell and molecular biology, chemistry, immunology, neurobiology, immunology, nutrition sciences, drug development and the clinical management of both acute and chronic diseases. - Includes perspectives from Jack Lancaster on the discovery of EDRF and nitric oxide - Provides detailed coverage of the new gaseous signaling agents - Features expanded coverage on the principles of biology, including nitric oxide synthases, nitrite and nitrate biology and pathobiology, and signaling mechanisms - Incorporates expanded pathobiology coverage, including nitric oxide and cardiovascular function, obesity, diabetes, and erectile function/dysfunction
Since the nineteenth century, when engineers were using nitroglycerin to blow up rockbeds, and doctors were prescribing it to relieve angina, scientists have been exploring the incredible and often baffling behavior of nitric oxide. In the 1980s, researchers discovered that nitric oxide had the capacity to regulate vascular tone through cyclic GMP,
Advances in Nitric Oxide and Cancer is a volume that serves to give the latest research on nitric oxide (NO) and cancer. More specifically, the volume reviews significant advances in the application of NO-mediated drugs. The volume explores nitric oxide and its relationship to cancer spanning from its roles in the pathogenesis, prognosis, gene and protein modifications, regulation of resistance to cytotoxics, and therapeutic applications. With chapters written by leading experts, the volume addresses the burgeoning interest in a rapidly advancing field and provides a valuable resource to scientists who have initiated research as well as clinical investigations in their laboratories on the various roles of NO and cancer.
Literally thousands of papers have been published on nitric oxide over the past ten years. But there is no single monograph available that has previously attempted to summarize the important features of the roles of nitric oxide in inflammation. The voluminous literature regarding the incredible range of chemical and biological effects of nitric oxide and reactive nitrogen oxide species, RNOS, may present a tangle of confusing information to the researcher. This volume brings together experts from nitric oxide and inflammation research and presents a concise up-to-date overview as well as future aspects of this rapidly growing field.
This volume contains papers covering aspects of nitric oxide and the cell.
This unique sourcebook serves as a comprehensive reference, bridging the well-established chemistry of nitric oxide and the new and exciting role of nitric oxide as an effector and signaling molecule in numerous biological systems. Nitric Oxide: Principles and Actions relates the chemical properties of the molecule to its possible effects on biological systems, under both normal physiological and pathophysiological conditions. Combining the chemistry and analysis of nitric oxide with newer studies of the relevance of the molecule gives this book a long life, making it extremely useful to researchers in a number of areas. - Provides a much needed compilation of what is known about nitric oxide and its properties - Enables researchers to understand the importance and use of nitric oxide in systems of study - Covers an area of tremendous growth in research - Provides the first collection of the roles of nitric oxide in microbial and mammalian systems and as a probe of metalloenzymes - Presents the historically important role of nitric oxide in food preservation