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Gap-junction proteins, connexins are important cellular entities that regulate various facets of cellular physiology. The connexins constitute large family of proteins. The present book provides basic overview about various aspects of connexin proteins. The book has tried to touch the fundamental aspects of connexin family. This book will be useful to broad audience that includes under-and post-graduate students, research scholars, clinicians, etc. The reference section at the end of the book will be helpful for those who seek to know deeper details about this family of proteins.
This book deals with the types of gap junction proteins (connexins) and their distribution within the nervous system, the physiological properties of channels formed of each connexin, and the role of gap junction channels in functions of normal and pathological brain and peripheral nerve. Although glial tissue is emphasized, additional groups of chapters deal with neurons in the central nervous system and with the retina.
A complete update of the highly acclaimed handbook with data on all neurotransmitters and the majority of neuromodulators. The coverage is now even more comprehensive, with 15% more entries on neuropeptides, "classic" neurotransmitters and related substances in a clear, alphabetical format. The methodological section has been expanded by 50% and now includes color figures, plus new chapters on genomics, proteomics, databases, microarrays, MALDI-TOF, neutrophins, FGF, endocannabinoids and neuroimaging. The text provides clearly structured information on the biosynthesis and degradation, localization, receptors, signal transduction pathways, and biological effects in the central nervous system, with all substances uniformly treated for an easy comparison of data. Furthermore, introductory chapters on receptors, transporters, and the blood-brain barrier make this an indispensable tool for researchers, teachers, and advanced students, as well as a must-have for every neuroscientist.
An understanding of the nervous system at virtually any level of analysis requires an understanding of its basic building block, the neuron. This book provides the solid foundation of the morphological, biochemical, and biophysical properties of nerve cells that is needed by advanced undergraduates and graduate students, as well as researchers in need of a thorough reference.* Highly referenced for readers to pursue topics of interest in greater detail* Unique coverage of the application of mathematical modeling and simulation approaches not found in other textbooks* Richly illustrated, four color presentation throughout* Includes CD-ROM of all of the illustrations
International Review of Cytology
Communication between cells via intercellular channels – gap junctions – appears essential to certain developmental processes and appropriate organ function. Gap Junctions in Development and Disease aims to describe the molecular events underlying impaired development and disease. Beginning with a comprehensive review of various mouse and human genes encoding the channel-forming connexins, later chapters describe several connexin mutations associated with human diseases such as hereditary deafness and female infertility. Erroneous signaling mediated by the interaction of mutant connexins with other proteins, thought to be responsible for dysfunction of organs such as heart, muscle, brain, skin, lens, placenta, and endocrine tissue in both mice and men, is also addressed. Although the question of why some mutations in gap-junction proteins lead to specific phenotypes remains to be answered, the reviews in this book provide an intriguing insight into the future direction of this research field.
Astrocytes play diverse roles in central nervous system (CNS) function and dysfunction, and the connections that the astrocyte makes with other cells of the brain are essential for a variety of important neural tasks. Bringing together contributions from international experts at the top of their field, Astrocytes: Wiring the Brain emphasizes cellul
A distinguished panel of internationally recognized neuroscientists comprehensively review the involvement of and changes in glial cells both during the normal aging process and in the major disorders of old age. Topics range from the cellular and molecular changes that occur with aging-especially aging-associated activation of astrocytes and microglia and its relation to neuronal injury and repair-to neuron-glia intercommunication. The contributors show how glial signals may be modulated by hormones, growth factors, neurotransmitters, intracellular metabolism, and intercellular exchanges, as well as by aging of the blood-brain barrier.
For over three decades, Allan N. Schore has authored numerous volumes, chapters, and articles on regulation theory, a biopsychosocial model of the development, psychopathogenesis, and treatment of the implicit subjective self. The theory is grounded in the integration of psychology, psychiatry, and neuroscience, and it is now being used by both clinicians to update psychotherapeutic models and by researchers to generate research. First published in 1994, this pioneering volume represented the inaugural expression of his interdisciplinary model, and has since been hailed by a number of scientific and clinical disciplines as a groundbreaking and paradigm-shifting work. This volume appeared at ...
The objective in editing this volume was twofold: to provide a reasoned overview of the field as well as to furnish one that provided this overview within the context of the intellectual boundaries of those who initially attempted to define the purview of gap junction research. The latter objective has been realized by selecting the topics for review in this volume. The former objective was achieved by securing the cooperation of leaders in their fields as chapter co-authors.