The neurobiology of learning and memory:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Sunderland, Mass.
Sinauer
2008
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XVII, 380 S. Ill., graph. Darst. |
| ISBN: | 9780878936694 |
Internformat
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| 100 | 1 | |a Rudy, Jerry W. |d 1942- |e Verfasser |0 (DE-588)135725186 |4 aut | |
| 245 | 1 | 0 | |a The neurobiology of learning and memory |c Jerry W. Rudy |
| 264 | 1 | |a Sunderland, Mass. |b Sinauer |c 2008 | |
| 300 | |a XVII, 380 S. |b Ill., graph. Darst. | ||
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Datensatz im Suchindex
| _version_ | 1804137440439435264 |
|---|---|
| adam_text | Table
of Contents
CHAPTER
1
Introduction: Fundamental Concepts and
Historical Foundations
1
Learning and Memory Described
2
Psychological and Neurobiological
Approaches
3
Psychological Approach
3
Neurobiological Approach
5
Historical Influences:
The Golden Age
6
Phenomena and Ideas
7
Methods
10
Core Themes
12
Synoptic Plasticity
12
Molecules and Memory
13
Memory Systems
13
Summary
13
X
CONTENTS
PART ONE
SYNAPTIC BASIS OF MEMORIES
15
CHAPTER
2
Mechanisms of Synaptic Plasticity: Introduction
17
Two Approaches to Studying Synapses that
Support Memory
18
Simple System: The CHI Withdrawal Reflex
18
Long-Term Potentiation
in the Hippocampus
22
The Conceptual Basis and Methodology of LTP
25
Understanding the Field EPSP
27
What is Synaptic Strength?
33
Inducing and Measuring LTP
34
The Chemical Basis of LTP
37
The
Glutamate
Binding Process
37
AMPA
and NMDA Receptors
38
Why the NMDA Receptor Is Special
40
The NMDA Receptor and Associative Learning
43
Long-Term Depression: The Polar Opposite of LTP
44
Summary
45
CHAPTER
3
Strengthening Synapses: Assembling
Existing Parts
47
Messengers and Functional
Endpoints 48
AMPA
Receptor Function and the Expression of LTP
50
Post-Translation Modification Processes
52
The Role of CaMKII and Autophosphorylation
53
Some
Funđional
Consequences of CaMKII Activity
55
CaMKII and
AMPA
Receptors
55
CaMKII and the Persistence of LTP
56
CONTENTS
XI
CaMKII Autophosphorylation and
РКА
56
AMPA Receptor
Trafficking and Regulation
57
The Composition of
AMPA
Receptors
58
AMPA
Receptor Trafficking into the Synapse
59
Summary
61
CHAPTER
4
Strengthening Synapses: Generating New Material
65
Genomic Signaling
66
The Role of CREB Protein in Transcription
68
CREB Protein Activation: Two Models
68
Local Protein Synthesis
72
Transcription and Local Translation
72
Translation Machinery in
Dendrites
75
The Role of Local Protein Synthesis in L-LTP
76
Why Are New Proteins Critical?
80
Finding the Correct Synapses: Synaptic Tagging Theory
81
Tagging Synapses and Capturing Plasticity Products
82
Tagging and Local Protein Synthesis
84
Summary
86
CHAPTER
5
Calcium: The Master Plasticity Molecule
91
Extracellular and Intracellular Sources of Calcium
92
Multiple Forms of LTP and Calcium Sources
95
ER
Calcium Release and Local Protein Synthesis
98
Implications of These Experiments
102
Summary
103
XII CONTENTS
CHAPTER
6
Dendritic Spines: The Dynamic Relationship between
Structure and Function
107
Actin Regulates Spine Shape and Size
109
The Dynamics of Actin
177
Regulation of Spine Stability
112
Actin Modification Is Critical to UP Induction
114
Cadherins Bind Modified Spines to Presynaptic
Neurons
116
Synaptic Plasticity, Spine Stability, and Memory
117
Spine Morphology and Synaptic Stability
118
Dendritic Spines and the Storage Saturation Problem
119
Summary
121
PART TWO
MOLECULES AND MEMORIES
125_______________
CHAPTER
7
Making Memories: Conceptual Issues and
Methodologies
127
UP and Memory
128
Behavior and Memory
128
Test Behavior: The Window to the Memory Trace
129
The Learning-Performance Distinction
131
Dimensions of Memory Traces
131
The Concept of Memory Consolidation
133
Electroconvulsive Shock and Memory Disruption
134
Memory Disruption: A Storage or Retrieval Failure?
135
Some Behavioral Test Methods for Studying Memory
136
Inhibitory Avoidance Conditioning
136
Fear Conditioning
138
Spatial Learning in a Water-Escape Task
140
CONTENTS XIII
Why These Three Behavioral Test Methods?
142
Methods for Manipulating Brain Function
143
Stereotaxic Surgery
143
Genetic Engineering
144
Summary
146
CHAPTER
8
Memory Formation: Post-Translation Processes
147
Glutamate
Receptors and Memory Formation
148
NMDA Receptors and Memory Function
149
AMPA
Receptors and Memory Function
157
NMDA and
AMPA
Receptors Make Different Contributions
162
CaMKII and Memory Formation
164
Preventing Autophosphorylation of CaMKII
165
Viral Vector Delivery of CaMKII in Place Learning
166
CaMKII and Fear Memories
167
Summary
168
CHAPTER
9
Memory Consolidation: Translation and
Transcription
173
The Generic Research Paradigm
175
Transcription Processes
176
CREB and Memory
177
Critical Activity-Dependent Memory Genes
181
Summary of Transcription Processes
182
The
De Novo
Protein Synthesis Hypothesis
183
Methodological Issues in the Use of Drugs
185
What Specific Proteins Are Translated?
188
Summary of the Role of Protein Synthesis
190
Summary
190
XIV CONTENTS
CHAPTER
10
Memory Modulation Systems
195
Memory Modulation
196
The Great Modulator: The Amygdala
199
Epinephrine and the Vagus Connection
203
Glucocorticoids: The Other Adrenal Hormone
204
The Amygdala Signal
207
Norepinephrine and
AMPA
Receptor Trafficking
208
Modulating Hormones and Post-Traumatic Stress Disorder
210
Summary
211
CHAPTER
11
The Fate of Retrieved Memories
215
Reactivated Memory Disrupted by ECS
216
Active Trace Theory
217
Reconsolidation
Theory
218
Assessing Reconsolidation Theory
221
Memory Erasure: A Potential Therapy
224
Preventing Drug Addiction Relapse
225
Eliminating Debilitating Fears
228
Summary
229
PART THREE
NEURAL SYSTEMS AND MEMORY
253_______________
CHAPTER
12
The Content of Memory: Memory Systems and
the Hippocampus
235
The Multiple Memory Systems Perspective
236
CONTENTS
XV
Example
1: Personal
Facts and Emotions
236
Example
2:
Personal Facts and Skills
237
The Case of H.M.
238
The Episodic Memory System
240
The Animal Model Strategy
242
The Delayed Nonmatching-to-Sample Task
242
Two Process Theories of Recognition Memory
245
Studying Patients with Selective Hippocampus Damage
245
Summary
247
CHAPTER
13
The Hippocampus Index and Episodic Memory
251
Properties of Episodic Memory
252
Conscious Recollection and Contextual Information Storage
252
Automatic Capture of Episodic and Incidental Information
253
Single Episode Capture with Protection from Interference
254
Summary
254
A Neural System that Supports Episodic Memory
254
The Hierarchy and the Loop
255
Functional Implications
256
The Indexing Theory of Episodic Memory
257
The Hippocampus Does Not Store Content
259
Pattern Completion and Pattern Separation
259
Why Not Just Store the Memory in the Neocortex?
260
Indexing Theory and Properties of Episodic Memory
262
Evidence for Indexing Theory
262
People with Damage to the Hippocampus
262
Hippocampus Studies in Rodents
265
Episodic, Semantic, and Declarative Memory
272
The Vargha-Khadem Findings
274
Is the Medial Temporal Hippocampal System Homogeneous?
274
Summary
275
XVI CONTENTS
CHAPTER
14
Riboťs
Law, Systems Consolidation, and the
Hippocampus
281
Are Remote Memories Resistant to Disruption?
282
Remote Memories and the Hippocampus
283
The Standard Model of Systems Consolidation
284
Challenges to the Standard Model
286
Multiple Trace Theory
290
Other Evidence Relevant to the Debate
291
Human Brain Imaging
291
Remote Memory Animal Studies
294
Summary
297
CHAPTER
15
Actions, Habits, and the Cortico-Striatal System
301
The Concept of Instrumental Behavior
302
Two Theories of Instrumental Behavior
304
Thorndike s Law of Effect
304
Tolman s Cognitive Expectancy Theory
304
Actions and Habits
306
With Practice, Actions Become Habits
308
A Conceptual Model for Actions and Habits
308
A Cortico-Striatal System Supports Instrumental
Behavior
311
Neural Support for Actions and Habits
314
Support for trie Action System
314
What about the Habit System?
318
The Neural Basis of Rewarding Outcomes
319
Summary
321
CHAPTER
1
ó
Learning about Danger: The Neurobiology of
Fear Memories
325
The Fear System
326
The Neural Basis of Fear
328
A Neural System that Supports Learned Fear
330
Parallel Responses in Humans
332
Acquired Fears Motivate and Reinforce Instrumental
Behavior
333
Eliminating Dangerous Fears: Psychological Theories
of Extinction
336
The Neurobiology of Fear Extinction
340
Extintíion
Depends on NMDA Receptors
343
Why Fear Renews: A Role for the Hippocampus
344
Eliminating Human Fears
346
Summary
346
Photo Credits
351
Glossary
353
Author Index
367
Subject Index
369
CONTENTS
XVII
|
| adam_txt |
Table
of Contents
CHAPTER
1
Introduction: Fundamental Concepts and
Historical Foundations
1
Learning and Memory Described
2
Psychological and Neurobiological
Approaches
3
Psychological Approach
3
Neurobiological Approach
5
Historical Influences:
The Golden Age
6
Phenomena and Ideas
7
Methods
10
Core Themes
12
Synoptic Plasticity
12
Molecules and Memory
13
Memory Systems
13
Summary
13
X
CONTENTS
PART ONE
SYNAPTIC BASIS OF MEMORIES
15
CHAPTER
2
Mechanisms of Synaptic Plasticity: Introduction
17
Two Approaches to Studying Synapses that
Support Memory
18
Simple System: The CHI Withdrawal Reflex
18
Long-Term Potentiation
in the Hippocampus
22
The Conceptual Basis and Methodology of LTP
25
Understanding the Field EPSP
27
What is Synaptic Strength?
33
Inducing and Measuring LTP
34
The Chemical Basis of LTP
37
The
Glutamate
Binding Process
37
AMPA
and NMDA Receptors
38
Why the NMDA Receptor Is Special
40
The NMDA Receptor and Associative Learning
43
Long-Term Depression: The Polar Opposite of LTP
44
Summary
45
CHAPTER
3
Strengthening Synapses: Assembling
Existing Parts
47
Messengers and Functional
Endpoints 48
AMPA
Receptor Function and the Expression of LTP
50
Post-Translation Modification Processes
52
The Role of CaMKII and Autophosphorylation
53
Some
Funđional
Consequences of CaMKII Activity
55
CaMKII and
AMPA
Receptors
55
CaMKII and the Persistence of LTP
56
CONTENTS
XI
CaMKII Autophosphorylation and
РКА
56
AMPA Receptor
Trafficking and Regulation
57
The Composition of
AMPA
Receptors
58
AMPA
Receptor Trafficking into the Synapse
59
Summary
61
CHAPTER
4
Strengthening Synapses: Generating New Material
65
Genomic Signaling
66
The Role of CREB Protein in Transcription
68
CREB Protein Activation: Two Models
68
Local Protein Synthesis
72
Transcription and Local Translation
72
Translation Machinery in
Dendrites
75
The Role of Local Protein Synthesis in L-LTP
76
Why Are New Proteins Critical?
80
Finding the Correct Synapses: Synaptic Tagging Theory
81
Tagging Synapses and Capturing Plasticity Products
82
Tagging and Local Protein Synthesis
84
Summary
86
CHAPTER
5
Calcium: The Master Plasticity Molecule
91
Extracellular and Intracellular Sources of Calcium
92
Multiple Forms of LTP and Calcium Sources
95
ER
Calcium Release and Local Protein Synthesis
98
Implications of These Experiments
102
Summary
103
XII CONTENTS
CHAPTER
6
Dendritic Spines: The Dynamic Relationship between
Structure and Function
107
Actin Regulates Spine Shape and Size
109
The Dynamics of Actin
177
Regulation of Spine Stability
112
Actin Modification Is Critical to UP Induction
114
Cadherins Bind Modified Spines to Presynaptic
Neurons
116
Synaptic Plasticity, Spine Stability, and Memory
117
Spine Morphology and Synaptic Stability
118
Dendritic Spines and the Storage Saturation Problem
119
Summary
121
PART TWO
MOLECULES AND MEMORIES
125_
CHAPTER
7
Making Memories: Conceptual Issues and
Methodologies
127
UP and Memory
128
Behavior and Memory
128
Test Behavior: The Window to the Memory Trace
129
The Learning-Performance Distinction
131
Dimensions of Memory Traces
131
The Concept of Memory Consolidation
133
Electroconvulsive Shock and Memory Disruption
134
Memory Disruption: A Storage or Retrieval Failure?
135
Some Behavioral Test Methods for Studying Memory
136
Inhibitory Avoidance Conditioning
136
Fear Conditioning
138
Spatial Learning in a Water-Escape Task
140
CONTENTS XIII
Why These Three Behavioral Test Methods?
142
Methods for Manipulating Brain Function
143
Stereotaxic Surgery
143
Genetic Engineering
144
Summary
146
CHAPTER
8
Memory Formation: Post-Translation Processes
147
Glutamate
Receptors and Memory Formation
148
NMDA Receptors and Memory Function
149
AMPA
Receptors and Memory Function
157
NMDA and
AMPA
Receptors Make Different Contributions
162
CaMKII and Memory Formation
164
Preventing Autophosphorylation of CaMKII
165
Viral Vector Delivery of CaMKII in Place Learning
166
CaMKII and Fear Memories
167
Summary
168
CHAPTER
9
Memory Consolidation: Translation and
Transcription
173
The Generic Research Paradigm
175
Transcription Processes
176
CREB and Memory
177
Critical Activity-Dependent Memory Genes
181
Summary of Transcription Processes
182
The
De Novo
Protein Synthesis Hypothesis
183
Methodological Issues in the Use of Drugs
185
What Specific Proteins Are Translated?
188
Summary of the Role of Protein Synthesis
190
Summary
190
XIV CONTENTS
CHAPTER
10
Memory Modulation Systems
195
Memory Modulation
196
The Great Modulator: The Amygdala
199
Epinephrine and the Vagus Connection
203
Glucocorticoids: The Other Adrenal Hormone
204
The Amygdala Signal
207
Norepinephrine and
AMPA
Receptor Trafficking
208
Modulating Hormones and Post-Traumatic Stress Disorder
210
Summary
211
CHAPTER
11
The Fate of Retrieved Memories
215
Reactivated Memory Disrupted by ECS
216
Active Trace Theory
217
Reconsolidation
Theory
218
Assessing Reconsolidation Theory
221
Memory Erasure: A Potential Therapy
224
Preventing Drug Addiction Relapse
225
Eliminating Debilitating Fears
228
Summary
229
PART THREE
NEURAL SYSTEMS AND MEMORY
253_
CHAPTER
12
The Content of Memory: Memory Systems and
the Hippocampus
235
The Multiple Memory Systems Perspective
236
CONTENTS
XV
Example
1: Personal
Facts and Emotions
236
Example
2:
Personal Facts and Skills
237
The Case of H.M.
238
The Episodic Memory System
240
The Animal Model Strategy
242
The Delayed Nonmatching-to-Sample Task
242
Two Process Theories of Recognition Memory
245
Studying Patients with Selective Hippocampus Damage
245
Summary
247
CHAPTER
13
The Hippocampus Index and Episodic Memory
251
Properties of Episodic Memory
252
Conscious Recollection and Contextual Information Storage
252
Automatic Capture of Episodic and Incidental Information
253
Single Episode Capture with Protection from Interference
254
Summary
254
A Neural System that Supports Episodic Memory
254
The Hierarchy and the Loop
255
Functional Implications
256
The Indexing Theory of Episodic Memory
257
The Hippocampus Does Not Store Content
259
Pattern Completion and Pattern Separation
259
Why Not Just Store the Memory in the Neocortex?
260
Indexing Theory and Properties of Episodic Memory
262
Evidence for Indexing Theory
262
People with Damage to the Hippocampus
262
Hippocampus Studies in Rodents
265
Episodic, Semantic, and Declarative Memory
272
The Vargha-Khadem Findings
274
Is the Medial Temporal Hippocampal System Homogeneous?
274
Summary
275
XVI CONTENTS
CHAPTER
14
Riboťs
Law, Systems Consolidation, and the
Hippocampus
281
Are Remote Memories Resistant to Disruption?
282
Remote Memories and the Hippocampus
283
The Standard Model of Systems Consolidation
284
Challenges to the Standard Model
286
Multiple Trace Theory
290
Other Evidence Relevant to the Debate
291
Human Brain Imaging
291
Remote Memory Animal Studies
294
Summary
297
CHAPTER
15
Actions, Habits, and the Cortico-Striatal System
301
The Concept of Instrumental Behavior
302
Two Theories of Instrumental Behavior
304
Thorndike's Law of Effect
304
Tolman's Cognitive Expectancy Theory
304
Actions and Habits
306
With Practice, Actions Become Habits
308
A Conceptual Model for Actions and Habits
308
A Cortico-Striatal System Supports Instrumental
Behavior
311
Neural Support for Actions and Habits
314
Support for trie Action System
314
What about the Habit System?
318
The Neural Basis of Rewarding Outcomes
319
Summary
321
CHAPTER
1
ó
Learning about Danger: The Neurobiology of
Fear Memories
325
The Fear System
326
The Neural Basis of Fear
328
A Neural System that Supports Learned Fear
330
Parallel Responses in Humans
332
Acquired Fears Motivate and Reinforce Instrumental
Behavior
333
Eliminating Dangerous Fears: Psychological Theories
of Extinction
336
The Neurobiology of Fear Extinction
340
Extintíion
Depends on NMDA Receptors
343
Why Fear Renews: A Role for the Hippocampus
344
Eliminating Human Fears
346
Summary
346
Photo Credits
351
Glossary
353
Author Index
367
Subject Index
369
CONTENTS
XVII |
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| author | Rudy, Jerry W. 1942- |
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| discipline_str_mv | Biologie Psychologie Medizin |
| format | Book |
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| id | DE-604.BV023175772 |
| illustrated | Illustrated |
| index_date | 2024-07-02T19:59:41Z |
| indexdate | 2024-07-09T21:12:20Z |
| institution | BVB |
| isbn | 9780878936694 |
| language | English |
| lccn | 2007050489 |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016362375 |
| oclc_num | 184924725 |
| open_access_boolean | |
| owner | DE-355 DE-BY-UBR DE-20 DE-19 DE-BY-UBM DE-91 DE-BY-TUM DE-473 DE-BY-UBG DE-11 DE-188 DE-703 |
| owner_facet | DE-355 DE-BY-UBR DE-20 DE-19 DE-BY-UBM DE-91 DE-BY-TUM DE-473 DE-BY-UBG DE-11 DE-188 DE-703 |
| physical | XVII, 380 S. Ill., graph. Darst. |
| publishDate | 2008 |
| publishDateSearch | 2008 |
| publishDateSort | 2008 |
| publisher | Sinauer |
| record_format | marc |
| spelling | Rudy, Jerry W. 1942- Verfasser (DE-588)135725186 aut The neurobiology of learning and memory Jerry W. Rudy Sunderland, Mass. Sinauer 2008 XVII, 380 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Lernen (DE-588)4035408-8 gnd rswk-swf Neurobiologie (DE-588)4041871-6 gnd rswk-swf Gedächtnis (DE-588)4019614-8 gnd rswk-swf Neurobiologie (DE-588)4041871-6 s Lernen (DE-588)4035408-8 s Gedächtnis (DE-588)4019614-8 s DE-604 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016362375&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Rudy, Jerry W. 1942- The neurobiology of learning and memory Lernen (DE-588)4035408-8 gnd Neurobiologie (DE-588)4041871-6 gnd Gedächtnis (DE-588)4019614-8 gnd |
| subject_GND | (DE-588)4035408-8 (DE-588)4041871-6 (DE-588)4019614-8 |
| title | The neurobiology of learning and memory |
| title_auth | The neurobiology of learning and memory |
| title_exact_search | The neurobiology of learning and memory |
| title_exact_search_txtP | The neurobiology of learning and memory |
| title_full | The neurobiology of learning and memory Jerry W. Rudy |
| title_fullStr | The neurobiology of learning and memory Jerry W. Rudy |
| title_full_unstemmed | The neurobiology of learning and memory Jerry W. Rudy |
| title_short | The neurobiology of learning and memory |
| title_sort | the neurobiology of learning and memory |
| topic | Lernen (DE-588)4035408-8 gnd Neurobiologie (DE-588)4041871-6 gnd Gedächtnis (DE-588)4019614-8 gnd |
| topic_facet | Lernen Neurobiologie Gedächtnis |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016362375&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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