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The History of Neuroscience in Autobiography
This book is the second volume of autobiographical essays by distinguished senior neuroscientists; it is part of the first collection of neuroscience writing that is primarily autobiographical. As neuroscience is a young discipline, the contributors to this volume are truly pioneers of scientific research on the brain and spinal cord. This collection of fascinating essays should inform and inspire students and working scientists alike. The general reader interested in science may also find the essays absorbing, as they are essentially human stories about commitment and the pursuit of knowledge. The contributors included in this volume are: Lloyd M. Beidler, Arvid Carlsson, Donald R. Griffin, Roger Guillemin, Ray Guillery, Masao Ito. Martin G. Larrabee, Jerome Lettvin, Paul D. MacLean, Brenda Milner, Karl H. Pribram, Eugene Roberts and Gunther Stent. Key Features * Second volume in a collection of neuroscience writing that is primarily autobiographical * Contributors are senior neuroscientists who are pioneers in the field
From Molecules to Networks
An understanding of the nervous system at virtually any level of analysis requires an understanding of its basic building block, the neuron. The third edition of From Molecules to Networks provides the solid foundation of the morphological, biochemical, and biophysical properties of nerve cells. In keeping with previous editions, the unique content focus on cellular and molecular neurobiology and related computational neuroscience is maintained and enhanced. All chapters have been thoroughly revised for this third edition to reflect the significant advances of the past five years. The new edition expands on the network aspects of cellular neurobiology by adding new coverage of specific resea...
The Master Illusionist
Federico Sanchez’s interest in the brain began--primarily related to artificial intelligence and computers--while studying mechanical engineering at Tufts University in the early 70’s. For the next three decades he studied the human brain sporadically as an ongoing hobby. But, after the death of his younger son by suicide in 2002, using the latest research on the brain, he committed to explain not only how suicide is possible but how most other mental disorders come about. He synthesized his findings in The Master Illusionist, Principles of Neuropsychology a groundbreaking study on the inner workings of the human brain from an engineering perspective. This is a new paradigm-setting study...
Mosaic
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The Evolution of Biotechnology
This book traces the evolution of biotechnology from prehistoric organismal manipulation by our first settled ancestors through to speculation about future directions for the technology as it increasingly intersects with other high technologies such as IT and Nanotech. The trajectory is demonstrated by various events throughout history that have intersected or built on one another to lead to the forward progression of a technology.
Current Topics in Membranes and Transport
Current Topics in Membranes and Transport
NMDA Receptor Protocols
Min Li and a panel of hands-on experimentalists detail state-of-the-art molecular techniques for studying NMDA ligand-gated ion channels and developing assays for nontherapeutic lead selection. The topics range from cDNA cloning to in vitro and in vivo investigation of the channel complex in the mammalian brain. Additional topics include the biochemical analysis of the channel protein and the construction of various heterologous systems for both basic research and high throughput screens (HTS) for pharmaceutical chemicals. Although the focus is on NMDA receptors, the methods are applicable to other ligand-gated ion channels and with some modification may be extended to related membrane signaling receptors. NMDA Receptor Protocols offers today's scientists powerful methods for basic research on NMDA receptor structure and function, as well as enormous opportunities for clinical investigation toward the development of novel bioactive compounds.
Neurotransmitter Actions in the Vertebrate Nervous System
Intercellular communication via bioactive substances occurs in virtually all multicellular systems. Chemical neurotransmission in the vertebrate nervous system represents a form of signaling of this type. The biology of chemical neurotransmission is complex, involving transmitter synthesis, transport, and release by the presynaptic neuron; signal generation in the target tissue; and mechanisms for termination of the response. The focus of this book is on one aspect of this scheme: the diverse electrophysiological effects induced by different neurotransmitters on targets cells. In recent years, astonishing progress has been made in elucidating the specific physiological signals mediated by ne...
Model Neural Networks and Behavior
The most conspicuous function of the nervous system is to control animal behav ior. From the complex operations of learning and mentation to the molecular con figuration of ionic channels, the nervous system serves as the interface between an animal and its environment. To study and understand the fundamental mecha nisms underlying the control of behavior, it is often both necessary and desirable to employ biological systems with characteristics especially suitable for answering specific questions. In neurobiology, many invertebrates have become established as model systems for investigations at both the systems and the cellular level. Large, readily identifiable neurons have made invertebrates especially useful for cellular studies. The fact that these neurons occur in much smaller numbers than those in higher animals also makes them important for circuit analysis. Although important differences exist, some of the questions that would be tech nically impossible to answer with vertebrates can become experimentally tractable with invertebrates.
