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Complex Carbohydrates of Nervous Tissue
It is only relatively recently that neurochemists and neurobiologists have shown appreciable interest in the class of macromolecules now generally re ferred to as complex carbohydrates, although gangliosides were, of course, first identified and studied in brain. The glycosaminoglycans fell chiefly within the province of connective-tissue biochemists, and earlier informa tion concerning the structure and metabolism of glycoproteins was largely limited to the more accessible glycoproteins and oligosaccharides (such as those found in plasma, milk, and urine), or ones which are relatively simple to prepare in a soluble and manageable form. Techniques were later devised for the isolation and purification of tightly bound membrane glycoproteins, where initial studies concentrated mainly on the erythrocyte, for which large amounts of a single cell population are available. Because of the structural complexity of nervous tissue and the large numbers, low concentrations, and membrane-bound form of many of its complex carbohydrates, progress has occurred more slowly in this area.
CNS Regeneration
This second edition of CNS Regeneration updates the burgeoning field of regeneration in the Central Nervous System (CNS) from molecular, systems, and disease-based perspective. While the book covers numerous areas in detail, special emphasis is given to discussions of movement disorders such as Parkinson's disease, Alzheimer's disease, and spinal cord injury. - Incorporates information gained from cutting-edge photomicroscopy techniques - Includes current information on clinical trials - Presents chapters on stem cells and other novel treatments for diseases of the CNS
The Brain and Pain
Pain is an inevitable part of existence, but severe debilitating or chronic pain is a pathological condition that diminishes the quality of life. The Brain and Pain explores the present and future of pain management, providing a comprehensive understanding based on the latest discoveries from many branches of neuroscience. Richard Ambron—the former director of a neuroscience lab that conducted leading research in this field—explains the science of how and why we feel pain. He describes how the nervous system and brain process information that leads to the experience of pain, detailing the cellular and molecular functions that are responsible for the initial perceptions of an injury. He d...
Intracellular Traffic and Neurodegenerative Disorders
Many adult onset neurodegenerative diseases arise from the accumulation of misfolded peptides. This book examines the role sub-cellular trafficking pathways play in the pathological accumulation of these misfolded proteins and in attempts to clear them.
