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Prion Diseases and Copper Metabolism
International authorities here investigate research into the prion diseases which include Scrapie of sheep, BSE the "Mad Cow" disease, and CJD one of the human diseases. The role of metals in these diseases has become of great importance, linking it with some of the changes in Alzheimer's disease. The book focuses on metabolism of copper and manganese which are found in these diseases. It stems from proceedings of the international workshop at Christ's College, Cambridge University in 2001. After an introduction on the history of research into the diseases, there are discussions on the effects of copper on biochemical properties and prion proteins of brain cells, and newer techniques for their study. There is also a section on the relationship of Alzheimers disease to prion diseases. - Focuses on metabolism of copper and manganese, which are found in Scrapie of sheep; BSE, the "Mad Cow" disease; and CJD, one of the human prion diseases - Discusses the effects of copper on biochemical properties, prion proteins of brain cells and new techniques for their study - Stems from the proceedings of the international workshop at Christ's College, Cambridge University in 2001
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Prion Biology
This book contains a selection of chapters aimed to provide a better understanding prion structure and biology. Together these chapters provide an overview of prion biology and underscore some of the challenges we face if we want to understand how this lively pathogen propagates and evolves in mammals. There is also mounting evidence that studying prion biology has a wider relevance due to similarities in the processes of protein misfolding and aggregation between prion disorders and other neurodegenerative disorders such as Alzheimer’s, Parkinson’s, and Huntington’s diseases.
Fish Physiology: Fish Neuroendocrinology
The study of fish neuroendocrinology has had a significant impact on our general understanding of the functional roles and evolution of a variety of neurochemical messengers and systems. Not only do fish possess unique neuroendocrine features, they have also been and remain an important vertebrate models for the discovery of new neuropeptides. In the last fifty years, neuroendocrinologists have documented a complex and seemingly infinite number of interactions between hormones and nerve structures. Gradually emerging from this knowledge is an understanding of the specific neurohormonal pathways and the messengers responsible for maintaining homeostasis in an aquatic environment and for regul...
