
How are sights and sounds and smells converted into electrical signals in a form that can be interpreted by the nervous system? Although this process, called sensory transduction, began to be understood only relatively recently, so much progress has been made that it is now possible to say at least in outline (but in most cases in remarkable detail) how transduction occurs for all of the major sense organs of the body. Since the first edition was published in 2003, many new experiments have radically changed some of our previously-held views.This new edition fulfils the book's original aims, both as an accessible textbook and a general introduction to the senses, by bringing the contents fully up to date with the new information acquired over the last 15 years. In so doing, it continues to provide a comprehensive survey of one of the greatest achievements of modern biology and neuroscience - the unravelling of the mechanism of sensation. Sensory Transduction is written for advanced undergraduates, graduate students, and researchers in neurophysiology and sensory neuroscience. It is also of relevance and use to a broader audience of neuro, evolutionary, integrative, and comparative biologists.
This book investigates the biological mechanisms by which external stimuli such as light, sound, and chemical signals are converted into electrical impulses within the nervous system. Gordon L. Fain, a specialist in sensory physiology, synthesizes decades of experimental data to provide a comprehensive framework for understanding how specialized receptors translate environmental information into neural language. The text serves as an updated synthesis of the field, incorporating significant advancements in molecular biology and biophysics that have emerged since the early 2000s.
What You Will Find
Scope Limits
Experts and educators recognize this work as a foundational resource for advanced students and researchers in neurobiology. Readers frequently note the technical density of the prose, which requires a strong background in cellular biology and physics to fully grasp the presented mechanisms.
Page Count:
304
Publication Date:
2019-01-01
Publisher:
OUP Oxford
ISBN-10:
0192571974
ISBN-13:
9780192571977
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