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This volume offers a comprehensive history of the Mount Desert Island Biological Laboratory (MDIBL), one of the major marine laboratories in the United States and a leader in using marine organisms to study fundamental physiological concepts. Beginning with its founding as the Harpswell Laboratory of Tufts University in 1898, David H. Evans follows its evolution from a teaching facility to a research center for distinguished renal and epithelial physiologists. He also describes how it became the site of major advances in cytokinesis, regeneration, cardiac and vascular physiology, hepatic physiology, endocrinology and toxicology, as well as studies of the comparative physiology of marine organisms. Fundamental physiological concepts in the context of the discoveries made at the MDIBL are explained and the social and administrative history of this renowned facility is described.
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Circumventricular Organs and Brain Fluid Environment
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First multi-year cumulation covers six years: 1965-70.
This volume is the proceedings from the Swiss Society for Neuropathology XVIIIth International Winter Meeting on Neuropathology and Genetics of Dementia, held March 23-26, 2000, in St. Moritz, Switzerland. For more than 35 years the Swiss Society of Neuropathology has organised its traditional International Winter Meeting, whose main aim is to bring together neuropathologists and clinicians as well as neuroscientists interested in disease mechanisms. The topic of the 2000 Meeting was Neuropathology and Genetics of Dementia. A programme of invited plenary lectures of high educational value as well as platform and poster presentations given by many participants covered the broad spectrum of dementing disorders. Encouraged by the high standard of the meeting, and probably also influenced by the advent of a new Millennium, it was decided to publish the Proceedings of the 2000 Meeting in the present book.
Metabolic engineering is a rapidly evolving field that is being applied for the optimization of many different industrial processes. In this issue of Advances in Biochemical Engineering/Biotechnology, developments in different areas of metabolic engineering are reviewed. The contributions discuss the application of metabolic engineering in the improvement of yield and productivity - illustrated by amino acid production and the production of novel compounds - in the production of polyketides and extension of the substrate range - and in the engineering of S. cerevisiae for xylose metabolism, and the improvement of a complex biotransformation process.