Principles of NeurobiologyPrinciples of Neurobiology 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 |
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Page xix
... pattern generators coordinate rhythmic contraction of muscles during locomotion 8.5 Intrinsic properties of neurons and their connection patterns produce rhythmic output in a model central pattern generator 8.6 The spinal cord uses ...
... pattern generators coordinate rhythmic contraction of muscles during locomotion 8.5 Intrinsic properties of neurons and their connection patterns produce rhythmic output in a model central pattern generator 8.6 The spinal cord uses ...
Page xx
... patterns in mammals 367 8.23 The mammalian sleep–wake cycle is regulated by multiple neurotransmitter and neuropeptide systems 369 8.24 Why do we sleep? 372 SUMMARY 374 FURTHER READING 375. chapter. 9. sexual. behavior. 377 378 HOW DO GENES ...
... patterns in mammals 367 8.23 The mammalian sleep–wake cycle is regulated by multiple neurotransmitter and neuropeptide systems 369 8.24 Why do we sleep? 372 SUMMARY 374 FURTHER READING 375. chapter. 9. sexual. behavior. 377 378 HOW DO GENES ...
Page xxiii
... patterns 13.10 Transgene expression can be controlled in both space and time in transgenic animals 13.11 Transgene expression can also be achieved by viral transduction and other transient methods 13.12 Accessing specific neuronal types ...
... patterns 13.10 Transgene expression can be controlled in both space and time in transgenic animals 13.11 Transgene expression can also be achieved by viral transduction and other transient methods 13.12 Accessing specific neuronal types ...
Page 110
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Page 114
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Contents
1 | |
27 | |
Chapter 3 Signaling across Synapses | 69 |
Chapter 4 Vision | 121 |
Chapter 5 Wiring of the Visual System | 167 |
Chapter 6 Olfaction Taste Audition and Somatosensation | 207 |
Chapter 7 Wiring of the Nervous System | 277 |
Chapter 8 Motor and Regulatory Systems | 325 |
Chapter 9 Sexual Behavior | 377 |
Chapter 10 Memory Learning and Synaptic Plasticity | 415 |
Chapter 11 Brain Disorders | 467 |
Chapter 12 Evolution of the NervousSystem | 513 |
Chapter 13 Ways of Exploring | 557 |
GLOSSARY | 1 |
INDEX | 1 |
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action potentials activity Adapted animals axons behavior binding body bottom brain Ca2+ called causes cells changes channels Chapter circuit conditioning cone connections cord cortex cortical cytoplasmic dendrites depolarization determined direction discussed dopamine effect electrical et al example exhibit experiments expression factors females Figure firing function gene genetic human identified imaging increase indicated individual inhibition input intracellular lateral layer learning levels light located male mechanisms membrane memory mice molecules motor motor neurons mouse movement muscle mutations Nature nerve nervous system neural neurotransmitter normal nucleus odorant olfactory olfactory receptor neurons organization pathway patterns permission postsynaptic presynaptic produce projection properties protein receive receptor recording regulate release represent response result retinal RGCs selection sensory signals similar single specific spinal stimulation structure studies suggest synaptic terminals tion types ventral visual whereas