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It goes without saying that the principles and techniques of molecular biology are having and will continue to have a major impact on investigations into nervous system structure and func tion. It is becoming increasingly apparent to neuroscientists in all subdisciplines that a working knowledge of the language, approaches, and techniques of molecular biology is indispensable for their work. For these reasons, the editors have decided to devote this volume of Neuromethods to the techniques of molecular biology and their application to neural systems. There currently exist a number of excellent reference technical manuals that de scribe molecular neurobiological techniques in great detail, an...
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Molecular genetics in neurobiology has developed rapidly with the introduction of the new and productive methodologies of genetic engineering and cell manipulation. Particularly in the field of developmental neurobiology, molecular genetics has had impact in research on the molecular mechanism of development and differentiation in the nervous system. This volume comprises 20 articles grouped into the following areas: cell recognition, embryo and gene manipulation, gene analysis and manipulation, and neural recognition. The authors have reviewed and interpreted their most recent results reflecting new concepts and ideas in the molecular approach to neurobiology.
Progress in Nucleic Acid Research and Molecular Biology
The current proliferation of scientific information makes it difficult for even the most diligent reader to keep up with the latest developments in his/her own field, let alone other areas of interest. Review articles are one solution, but they too have become so voluminous and detailed that they often defeat the purpose for which they were intended. We have attempted to ease this problem by using a different format. In this volume on Concepts in Viral Pathogenesis, we have assembled a series of mini-reviews/editorials, 1,000 to 2,000 words in length. Each is a pithy distil lation of the state-of-the-art with emphasis on current thinking and unifying concepts rather than a compendium of the literature. The 53 articles, all written by active workers in their respective fields, are organized systemati cally so that the book will provide busy investigators, teachers and students of up-to-date information in a very brief and easily read a conceptual core able form. In addition, the authors have attempted to identify unresolved problems and point to future directions.
Impairment of orexin/hypocretin signaling causes narcolepsy-cataplexy in animals and humans. Most human narcolepsy-cataplexy cases are associated with orexin/hypocretin ligand deficiency, which can be detected clinically using cerebrospinal orexin/hypocretin measures and may lead to future treatments with orexin/hypocretin replacement therapy. In The Orexin/Hypocretin System: Physiology and Pathophysiology, leading researchers and clinicians review these exciting developments to set the stage for further research on the loss of orexin/hypocretin neurons in humans, regulation of sleep and wakefulness by the orexin/hypocretin system, and the role of the orexin/hypocretin system in many other p...
Arousal states are processes that include waking, deep sleep, and the dreaming phase of sleep (REM). Molecular Regulation of Arousal States explores the cellular and molecular mechanisms by which sleep and wakefulness are regulated and seeks explanations for the generation of arousal states. It presents step-by-step research protocols that allow investigators to apply the techniques described to a wide range of physiological and behavioral research problems, such as sleep neurobiology and state-dependent disruption of cardiopulmonary control. For the first time, a single source integrates cellular and molecular research techniques with studies of arousal, opening the door to exciting new research methodologies.
This book is based on invited presentations at the Ninth International Catecholamine Symposiwn. Over several decades, each International Catecholamine Symposiwn (ICS) has provided a uniquely important forwn for updating basic as well as clinical research on the catecholamines, dopamine, norepinephrine, and epinephrine. The first ICS took nd n1 place in Bethesda, Maryland, in the USA in 1958; the 2 in Milan, Italy in 1965; the 3 th in Strasbourg, France in 1973; the 4th in Asilomar, California, USA in 1978; the 5 in th th Goteborg, Sweden in 1983; the 6 in Jerusalem, Israel,in 1987; the 7 in Amsterdam, th Netherlands in 1992; and the 8 in Asilomar, California, USA in 1996. th The 9 Internatio...