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The purpose of the present volume, the first of two on the pharmacology, biochemistry, and physiology of cyclic nucleotides, is to provide a comprehensive and up-to-date anthology on the nature and role of these important chemical regulators. Each of the chapters is the work of internationally known researchers who present a lucid and detailed review of their subject and not merely a single laboratory's viewpoint. The chapters emphasize critical assessments of the field rather than mere listings of experimental findings. By so doing, the contributors present the role of cyclic nucleotides in relationship to other intracellular regulators. Each chapter begins with a detailed summary to allow the reader to obtain a rapid overview of subsequent material. In addition, there are extensive bibliographies and a detailed subject index. Wherever pertinent, the chapters contain sections on drug mechanisms, physiological relevance, and disease processes. The Volume is divided into two sections, each beginning with an overview written by Professors T. W. RALL and P. GREENGARD, respectively. The first section focuses on the detailed pharmacology and chemistry of cyclic nucleotides, including their formation, degradation, measurement, and interaction with various modulatory agents, such as receptors and calcium. The second section is concerned with the biochemistry of protein phosphorylation, a process which appears to be one of the most important mechanisms for the intracellular expression of cyclic nucleotide action in eukaryotic cells.
This authoritative book gathers together a broad range of ideas and topics that define the field. It provides clear, concise, and comprehensive coverage of all aspects of cellular physiology from fundamental concepts to more advanced topics. The Third Edition contains substantial new material. Most chapters have been thoroughly reworked. The book includes chapters on important topics such as sensory transduction, the physiology of protozoa and bacteria, the regulation of cell division, and programmed cell death. - Completely revised and updated - includes 8 new chapters on such topics as membrane structure, intracellular chloride regulation, transport, sensory receptors, pressure, and olfactory/taste receptors - Includes broad coverage of both animal and plant cells - Appendixes review basics of the propagation of action potentials, electricity, and cable properties - Authored by leading experts in the field - Clear, concise, comprehensive coverage of all aspects of cellular physiology from fundamental concepts to more advanced topics
The field of neurology is being transformed, from a therapeutically nihilistic discipline with few effective treatments, to a therapeutic specialty which offers new, effective treatments for disorders of the brain and spinal cord. This remarkable transformation has bridged neuroscience, molecular medicine, and clinical investigation, and represents a major triumph for biomedical research. This book, which contains chapters by more than 29 internationally recognized authorities who have made major contributions to neurotherapeutics, tells the stories of how new treatments for disabling disorders of the nervous system, such as stroke, multiple sclerosis, Parkinson's disease, and migraine, were developed, and explores evolving themes and technologies that offer hope for even more effective treatments and ultimately cures for currently untreatable disorders of the brain and spinal cord. The first part of this book reviews the development of new therapies in neurology, from their inception in terms of basic science to their introduction into the clinical world. It also explores evolving themes and new technologies. This book will be of interest to everyone – clinicians and basic scientists alike – interested in diseases of the brain and spinal cord, and in the quest for new treatments for these disorders.* Presents the evolution of the field of neurology into a therapeutic discipline * Discusses lessons learned from past successes and applications to ongoing work* Explores the future of this field
Since the last major compendium dedicated to cyclic nucleotide phosphodiesterases (PDEs) was published over 15 years ago, an enormous amount of progress has occurred in the field. There is great need for a centralized source for key information in this burgeoning and therapeutically important area of medical research. Cyclic Nucleotide Phosph
Over the last two decades there has been a growing interest in cyclic nucleotide research in plants with an emphasis on the elucidation of the roles of cGMP and cAMP. In Cyclic Nucleotide Signaling in Plants: Methods and Protocols, expert researchers in the field detail many approaches to better understand the biological role of this important signaling system. Written in the highly successful Methods in Molecular BiologyTM series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and key tips on troubleshooting and avoiding known pitfalls. Authoritative and practical, Cyclic Nucleotide Signaling in Plants: Methods and Protocols seeks to aid scientist in further understanding signal transduction and the molecular mechanisms underlying cellular signaling.
After the discovery of endogenous NO formation in the late '80s and the 1998 Nobel Prize in Physiology or Medicine, many researchers and physicians again became interested in the NO/sGC interaction and cGMP-dependent signaling. This book is an enthusiastic celebration of cyclic guanosine monophosphate (cGMP) and amply illustrates the importance of this field of science to patients and the way in which the field has evolved. It is exclusively devoted to this exciting and important signaling molecule, addressing all recent advances in understanding guanylate cyclase regulation, NO/sGC interactions, cGMP effector mechanisms and their pathophysiological and pharmacological implications. Particular attention will also be given to clinical applications of the novel cGMP-elevating drugs which are on the horizon, thus spanning the continuum from basic science to clinic.
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 up-to-date, expanded reference with each section edited by a recognized expert in the field. Tabular and well illustrated, the Handbook will serve as an in-depth reference for this complex and evolving field. Handbook of Cell Signaling, 2/e will appeal to a broad, cross-disciplinary audience interested in the structure, biochemistry, molecular biology and pathology of cellular effectors. - 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 field
The elucidation of the cellular and molecular bases underlying the inte grated function of the central nervous system, both in disease and in health, must ultimately come from the combined efforts of scientists from many disciplines, including biology, chemistry, histology, pathology, physiology, pharmacology, and psychology. Communication between scientists from these various disciplines-vital to the advancement of our understanding of the function of the nervous system-has become more and more difficult in recent years. Both increasing specialization and the incredible increases in publications pertinent to brain research in a wide spectrum of journals, in symposium volumes, in monographs, in abstracts, and in reviews contrib ute to the problems of cross-communication and even of communication within a scientific discipline. Research on the significance of cyclic nucleo tides to the function of nervous systems is particularly illustrative of the communication problem. Since the initial publications by Sutherland, Rall, and Butcher in the late fifties and early sixties on high levels of adenylate cyclase, phosphodiesterases, and cyclic AMP in brain, the ensuing litera ture of this field has expanded exponentially. At the present time, from five to ten publications relevant to cyclic nucleotides and the nervous system appear each week. Indeed, these are minimal numbers based mainly on examination of literature titles and key index words. Many articles concerned with some aspect of central function contain, buried within their text, experiments with or related to cyclic nucleotides.