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Brain Receptor Methodologies, Part A, General Methods and Concepts: Amines and Acetylcholine provides information pertinent to neurotransmitter and neuromodulator receptors in brain. This book explores the methodologies that can used to address several basic and clinical problems. Organized into two sections encompassing 18 chapters, this book starts with an overview of the receptor concept, which can be validated from indirect evidence obtained in studies of the quantitative aspects of drug antagonism. This text then examines the radioligand–receptor binding interactions. Other chapters consider immunocytochemistry, which has a primary role in determining the precise distribution of regulatory peptides to neural and endocrine elements of the diffuse neuroendocrine system. The final chapter discusses the use of the radioligand binding procedure for the study of muscarinic receptors, which has expanded the area of muscarinic receptor pharmacology. Biochemists, pharmacologists, physiologists, and researchers engaged in the fields of neurobiology and neuroscience will find this book extremely useful.
Brain Receptor Methodologies: Part B Amino Acids. Peptides. Psychoactive Drugs is the second of the two-part first volume of the Neurobiological Research series, which provides a comprehensive view of various subdisciplines within neurobiology. The first volume (Parts A and B) deals with the area of neurotransmitter and neuromodulator receptors in brain; future volumes will cover the subdisciplines of neuroanatomy, neurophysiology, brain-specific macromolecules, neurochemistry, and behavioral neurobiology. It is hoped that the series will be of equal value for both basic as well as clinical scientists Part B continues from Part A with the remainder of Section II, specific receptor binding methodologies. Subsection II,B deals with receptors for amino acids and neuropeptides and covers areas including GABA, glycine, carnosine, opiates, bombesin, CCK, TRH, and substance P. Amino acids probably represent the majority of brain neurotransmitter substances, at least relative to the amines and acetylcholine, although with the exception of GABA, the amino acids remain relatively uncharacterized in brain. Their further study should receive high priority.
Biochemical Basis of Functional Neuroteratology
Experimental Cell Biology of Taste and Olfaction examines and adapts methods from a variety of established fields, such as neurophysiology, receptor biochemistry and cellular imaging to provide comprehensive coverage of current techniques and protocols in chemosensory cell biology. Written for both newcomers and established scientists, this volume offers numerous tips for problem solving and suggests ways to avoid the most common, and costly, mistakes made by researchers. This book covers general aspects such as tissue collection and preparation, as well as specific, up-to-date methods used in taste and olfactory morphology, immunology, biochemistry, biophysics, electrophysiology and molecular biology. The explosion of knowledge and the increased interest in these areas make this book an important reference work for all scientists, students, and teachers in this and related fields
During the past decade, great strides have been made in our un derstanding of the biochemistry and pharmacology of the alpha-l adrenergic receptor. The alpha-l adrenergic receptor plays a key role in biological function. This is evidenced by the fact that the alpha-l adrenergic receptor plays a prominent functional role in most organs of the body and in the key systems responsible for survival of the organism and maintenance of optimum biological activity. This is most apparent in the cardiovascular system, in which alpha-l adrenergic receptors are the single most important receptor involved in the maintenance of blood pressure and circu latory function. It is appropriate, therefore, that recent findings related to the pharmacology and biochemistry of the alpha-l adrenergic receptor be compiled, since this subject has not been reviewed in detail in recent years. It is the purpose of this book to present a series of reviews of key experimental findings that shed new light on the alpha-l adrenergic receptor and the manner in which it functions. Classically, most receptors have been characterized based on structure-activity relationships obtained for selective agonists and antagonists interacting with the receptor. Although there are many newer and more sophisticated approaches to receptor char acterization, structure-activity relationships still provide impor tant information regarding the chemical requirements made by the receptor for its occupation by ligands and its subsequent acti vation by those ligands possessing intrinsic efficacy and, there fore, agonist activity.
Receptor and Ion Channel Detection in the Brain provides state-of-the-art and up-to-date methodological information on molecular, neuroanatomical and functional techniques that are currently used to study neurotransmitter receptors and ion channels in the brain. The chapters have been contributed by world-wide recognized neuroscientists who explain in an easy and detailed way well established and tested protocols embracing molecular, cellular, subcellular, anatomical and electrophysiological aspects of the brain. This comprehensive and practical manual is presented in a simple, step-by-step manner for laboratory use, and also offers unambiguous detail and key implementation advice that proves essential for successful results and facilitate choosing the best method for the target proteins under study. This work serves as a useful guide for young researchers and students in training as well as for neurologists and established scientists who wish to extend their repertoire of techniques.
Neuronal and Glial Proteins: Structure, Function, and Clinical Application focuses on the basic and clinical information relating to a number of proteins that are either enriched in or unique to nervous tissue. This book discusses the structural and functional characteristics of cell-specific proteins, which provide a better understanding of the molecular mechanisms involved in processes that are specific to glia or neurons. Organized into three sections encompassing 15 chapters, this book starts with an overview of the fundamental principles and strategies involved in studying the anatomical, structural, functional, and immunological aspects of brain protein. This text then discusses the techniques, including the preparation of brain tissues as well as the preparation of neural and glial cells in purified form. Other chapters review the two-dimensional gel electrophoresis, which is recognized as a significant technique for discovering brain molecules. The final chapter deals with the membrane-associated nervous system proteins. Neurochemists and clinical researchers will find this book useful.