Principles of NeurobiologyPrinciples of Neurobiology, Second Edition presents the major concepts of neuroscience with an emphasis on how we know what we know. The text is organized around a series of key experiments to illustrate how scientific progress is made and helps upper-level undergraduate and graduate students discover the relevant primary literature. Written by a single author in a clear and consistent writing style, each topic builds in complexity from electrophysiology to molecular genetics to systems level in a highly integrative approach. Students can fully engage with the content via thematically linked chapters and will be able to read the book in its entirety in a semester-long course. Principles of Neurobiology is accompanied by a rich package of online student and instructor resources including animations, figures in PowerPoint, and a Question Bank for adopting instructors. |
From inside the book
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... adapted from the original literature. For simplicity, error bars and statistics have been omitted for most fgures. Interested students can fnd such details by following the citations in fgure legends. • ACKNOWLEDGMENTS Te author and ...
... (Adapted from Alberts B, Johnson A, Lewis J, et al. [2015] Molecular Biology of the Cell, 6th ed. Garland Science.) protofilament lumen plus end minus end 7 nm minus end 25 nm good understanding of the cell biological basis of neuronal ...
... adapted from Schnapp BJ, Vale RD, Sheetz MP, et al. [1985] Cell 40:455–462. With permission from Elsevier Inc. C, adapted from Vale RD, Schnapp BJ, Reese TS, et al. [1985] Cell 40:559–569. With permission from Elsevier Inc. D, from Vale ...
... (Adapted from Alberts B, Johnson A, Lewis J, et al. [2015] Molecular Biology of the Cell, 6th ed. Garland Science.) OUTSIDE + + + + + + + + –. Cell biological and electrical properties of neurons 37 2.4 Channels and transporters move ...
... (Adapted from Alberts B, Johnson A, Lewis J, et al. [2015] Molecular Biology of the Cell, 6th ed. Garland Science.) chemical gradient alone; no membrane potential chemical gradient and electrical gradient driving ion movement in the same ...
Contents
1 | |
27 | |
Chapter 3 Signaling across Synapses | 69 |
Chapter 4 Vision | 121 |
Chapter 5 Wiring the Visual System | 173 |
Chapter 6 Olfaction Taste Audition and Somatosensation | 213 |
Chapter 7 Constructing the Nervous System | 281 |
Chapter 8 Motor Systems | 335 |
Chapter 10 Sexual Behavior | 411 |
Chapter 11 Memory Learning and Synaptic Plasticity | 445 |
Chapter 12 Brain Disorders | 499 |
Chapter 13 Evolution of the Nervous System | 547 |
Chapter 14 Ways of Exploring | 591 |
Glossary | 1 |
Index | 1 |
Chapter 9 Regulatory Systems | 375 |