Odor memory and perception:
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Amsterdam [u.a.]
Elsevier
2014
|
| Ausgabe: | 1. ed. |
| Schriftenreihe: | Progress in brain research
208 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Literaturangaben |
| Beschreibung: | XVI, 354 S. Ill., graph. Darst. |
| ISBN: | 9780444633507 |
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| 245 | 1 | 0 | |a Odor memory and perception |c ed. by Edi Barkai ; Donald A. Wilson |
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Datensatz im Suchindex
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| adam_text | Titel: Odor memory and perception
Autor: Barkai, Edi
Jahr: 2014
Contents
Contributors...............................................................................................................v
Preface......................................................................................................................ix
PART 1 INVERTEBRATE MODELS OF ODOR MEMORY
_AND PERCEPTION_
CHAPTER 1 Olfactory Habituation in Drosophila—Odor
Encoding and its Plasticity in the Antennal Lobe..........3
Isabell Twick, John Anthony Lee, Mani Ramaswami
1. Introduction.....................................................................................4
2. Architecture of the Drosophila Olfactory System.........................5
3. Layers of Odor Information Processing.........................................9
3.1. Olfactory Sensory Neurons....................................................9
3.2. Projection Neurons...............................................................10
3.3. Local Interneurons................................................................10
4. Olfactory Coding of Different Properties
of an Odor Stimulus......................................................................11
5. Olfactory Habituation in Drosophila...........................................13
5.1. Olfactory Startle...................................................................13
5.2. Olfactory Jump Reflex.........................................................14
5.3. Olfactory Avoidance.............................................................14
6. Potential Mechanisms of Olfactory Habituation
in Drosophila................................................................................16
6.1. A Recurrent Inhibitory Circuit Motif Underlying
Olfactory Habituation...........................................................16
6.2. Differences of Olfactory STH and LTH..............................19
6.3. Open Questions.....................................................................23
7. Comparison of Olfactory Habituation in Mammals
and Drosophila..............................................................................24
8. Interactions with Neuromodulatory Systems...............................26
9. Relevance to Other Forms of Learning........................................28
Acknowledgments........................................................................29
References.....................................................................................29
CHAPTER 2 Active Forgetting of Olfactory Memories
in Drosophila.............................................................................39
Jacob A. Berry, Ronald L. Davis
1. Introduction to Psychological Models of Forgetting...................39
2. Forming Odor Memories in Drosophila......................................43
xi
Contents
3. Dopamine and Forgetting in Drosophila.....................................47
4. Forgetting is Regulated by Rae and the Cytoskeleton
in the MB s.....................................................................................52
5. Future Forgetting Studies in Drosophila......................................53
6. Forgetting as a Virtue...................................................................57
References.....................................................................................58
CHAPTER 3 Mixture Processing and Odor-Object Segregation
in Insects...................................................................................63
Paul Szyszka, Jacob S. Stierle
1. Information Content of Odorant Mixtures...................................63
2. Odor Information Processing Along the Olfactory
Pathway.........................................................................................65
3. Neural Representations of Odorant Mixtures...............................69
4. Perception of One-Source Mixtures.............................................70
5. Perception of Multiple-Source Mixtures......................................73
6. Neural Correlates of Odor-Object Segregation............................75
7. Methodological Considerations....................................................77
8. Conclusion.....................................................................................78
Acknowledgments........................................................................78
References.....................................................................................79
PART 2 VERTEBRATE MODELS OF ODOR MEMORY
_AND PERCEPTION_
CHAPTER 4 Visualizing Olfactory Learning Functional
Imaging of Experience-Induced Olfactory Bulb
Changes......................................................................................89
Max L. Fletcher, Mounir Bendahmane
1. Olfactory Bulb Functional Anatomy............................................90
2. Optical Imaging of Olfactory Bulb Odor Coding........................91
2.1. Presynaptic Imaging Techniques..........................................92
2.2. Postsynaptic Imaging Techniques........................................93
3. Experience-Induced Olfactory Bulb Plasticity.............................95
4. Imaging of Olfactory Bulb Plasticity...........................................96
4.1. Reduced Glomerular Responses Following Olfactory
Habituation............................................................................97
4.2. Reduced Glomerular Responses Following Olfactory
Deprivation...........................................................................99
4.3. Reduced Glomerular Responses Following Short- and
Long-Term Odorant Exposure...........................................100
4.4. Enhanced Glomerular Odor Responses Following
Olfactory Associative Conditioning...................................102
5. Conclusions.................................................................................105
References...................................................................................106
CHAPTER 5 Mechanisms Underlying Early Odor Preference
Learning in Rats.....................................................................lis
Qi Yuan, Amin MD. Shakhawat, Carolyn W. Harley
1. Introduction.................................................................................115
2. Olfactory Bulb............................................................................117
2.1. Organization of the OB (Simplified Anatomy).................117
2.2. Molecular Underpinnings for Learning in the OB............118
2.3. Physiological Mechanisms in the OB................................131
3. Anterior Piriform Cortex—An Overview..................................137
3.1. Pharmacological Experiments............................................139
3.2. Physiology Underlying Odor Preference Memory
in the aPC...........................................................................140
3.3. Induction, Memory Expression, and NMDARs.................142
3.4. Memory Expression and AMPARs....................................142
4. Concluding Remarks...................................................................143
References...................................................................................144
CHAPTER 6 Adult Neurogenesis in the Olfactory System
Shapes Odor Memory and Perception...........................157
Gilles Gheusi, Pierre-Marie Lledo
1. Introduction.................................................................................158
2. Early Stages in the Olfactory System........................................158
3. Adult Neurogenesis in the Olfactory Bulb.................................162
4. Dead or Alive: A Matter of Choice...........................................165
5. The Potential Functions of Olfactory Bulb
Adult Neurogenesis.....................................................................167
Acknowledgments......................................................................169
References...................................................................................169
CHAPTER 7 Construction of Odor Representations
by Olfactory Bulb Microcircuits....................................... n
Thomas A. Cleland
1. Introduction.................................................................................178
2. Olfactory Transduction and Convergence..................................179
3. Odor Representations..................................................................183
xiv Contents
4. Similarity Spaces........................................................................184
5. Glomerular Layer Computations................................................185
5.1. Sideband Suppression: A Problem of Dimensionality......185
5.2. Nontopographical Contrast Enhancement..........................187
5.3. Feedback Normalization.....................................................189
6. Deep-Layer Computations..........................................................194
6.1. The External Plexiform Layer............................................194
6.2. Higher Order Organizational Principles.............................195
6.3. Transformation in Timescale.............................................196
6.4. Top-Down Regulation........................................................197
7. Conclusion...................................................................................198
References...................................................................................198
CHAPTER 8 Coding Odor Identity and Odor Value in Awake
Rodents.....................................................................................205
Alexia Nunez-Parra, Anan Li, Diego Restrepo
1. Introduction.................................................................................205
2. Odors Induce Substantial Glomerular Activity with
Differential Timing of Activation as Input to the OB...............206
3. Odors Induce Substantial Changes in Mitral Cell Firing
Rate in the Anesthetized Animal................................................207
4. Odor-Induced Firing of Mitral Cells is High in Anesthetized
Animals and Substantially Decreased in Awake Animals
Because of Increased Inhibition by GCs....................................207
5. There is a Lack of Overall Odor-Induced Changes in
Firing Rate in Mitral Cells in a Subset of Awake
Animals.......................................................................................210
6. Neural Representation of Input to OB can be Shaped
by Sniff........................................................................................211
7. Sniff-Locked MTs Firing Provides Odor Information...............213
8. Sniff and Local Field Potentials.................................................216
9. Sniff and Olfactory Afterimage..................................................217
10. Conclusion...................................................................................218
Acknowledgments......................................................................218
References...................................................................................218
CHAPTER 9 Circuit Oscillations in Odor Perception
and Memory............................................................................223
Leslie M. Kay
1. Introduction.................................................................................224
2. The LFP in the Mammalian Olfactory System..........................225
Contents
3. Oscillatory Bands in the Olfactory System................................226
3.1. Thêta...................................................................................227
3.2. Gamma................................................................................232
3.3. Beta.....................................................................................242
4. Summary and Conclusion...........................................................245
References...................................................................................246
CHAPTER 10 Neural Mechanisms of Odor Rule Learning.................253
Edi Barkai
1. Rule Learning.............................................................................254
2. OD Learning in Rodents as a Model for Rule Learning...........254
2.1. Rule Learning-Induced Modulation of Intrinsic
Neuronal Excitability..........................................................256
3. Learning-Induced Reduction in Postburst AHP Is Mediated
by Reduction in the Conductance of the Calcium-Dependent
Potassium Current.......................................................................258
4. Role of Second Messenger Systems in Maintaining
Prolonged AHP Reduction.........................................................259
5. Learning-Induced Modulation of Noradrenaline s Effect
on Neuronal Excitability.............................................................260
6. Learning-Induced Modulation of Synaptic Transmission..........262
7. Enhancement of AMPAR-Mediated Synaptic Currents............263
8. Enhancement of GABAA-Mediated Unitary
Synaptic Currents........................................................................264
9. Olfactory Rule Learning-Induced Cellular Modifications
in Other Brain Areas...................................................................266
10. Rule Learning-Induced Modulation of Intrinsic Neuronal
Excitability in the Hippocampus and Amygdala.......................266
11. Rule Learning-Induced Modulation in Synaptic Connectivity
Between the OFC and the Piriform Cortex................................267
12. Rule Learning-Induced Modulation in Synaptic Connectivity
Between the Piriform Cortex and the Olfactory Bulb...............267
References...................................................................................269
CHAPTER 11 Cortical Odor Processing in Health and Disease.......275
Donald A. Wilson, Wenjin Xu, Benjamin Sadrían, Emmanuelle
Courtiol, Yaniv Cohen, Dylan C. Barnes
1. Introduction.................................................................................275
2. The Role of the Olfactory Cortex in Odor Perception..............277
2.1. Piriform Cortex...................................................................278
2.2. Entorhinal Cortex...............................................................280
2.3. Thalamocortical Olfaction..................................................282
Contents
3. Olfactory Cortex and Pathology.................................................285
3.1. Developmental Ethanol Exposure......................................286
3.2. Aging and Dementia...........................................................287
4. Summary.....................................................................................291
References...................................................................................292
PART 3 HUMAN ODOR MEMORY AND PERCEPTION
CHAPTER 12 Olfactory Insights into Sleep-Dependent Learning
and Memory............................................................................309
Laura K. Shanahan, Jay A. Gottfried
1. Introduction.................................................................................309
2. Sleep: A Brief Overview............................................................312
2.1. Sleep Phenomenology and Architecture............................312
2.2. The Proposed Functions of Sleep.......................................314
3. The Interaction Between Smells and Sleep: Human Studies ....315
3.1. Response to Odors During Sleep.......................................316
4. The Neurobiological Interface Between Smells and Sleep:
Animal Studies............................................................................319
4.1. Anesthestic Preparations as Models of Sleep-Like
States...................................................................................320
4.2. Olfactory Cortical Processing During Natural Sleep
States...................................................................................323
4.3. Impact of Odor Experience on Olfactory Processing
and Behavior.......................................................................323
5. Olfactory Cues can Modulate Cognitive Processes
During Sleep...............................................................................327
5.1. Targeting Declarative Memories in Sleep.........................327
5.2. Targeting Emotional Memories in Sleep...........................328
5.3. De Novo Olfactory Learning in Sleep...............................333
6. Forms of Olfactory Homeostasis During Sleep.........................334
7. Conclusions.................................................................................336
References...................................................................................338
Index.......................................................................................................................345
Other volumes in PROGRESS IN BRAIN RESEARCH..............................................353
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| isbn | 9780444633507 |
| language | English |
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| series | Progress in brain research |
| series2 | Progress in brain research |
| spelling | Odor memory and perception ed. by Edi Barkai ; Donald A. Wilson 1. ed. Amsterdam [u.a.] Elsevier 2014 XVI, 354 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Progress in brain research 208 Literaturangaben Geruchssinn (DE-588)4129703-9 gnd rswk-swf Geruch (DE-588)4020433-9 gnd rswk-swf Geruch (DE-588)4020433-9 s Geruchssinn (DE-588)4129703-9 s DE-604 Barkai, Edi Sonstige (DE-588)1051295971 oth Progress in brain research 208 (DE-604)BV008000363 208 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027364371&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Odor memory and perception Progress in brain research Geruchssinn (DE-588)4129703-9 gnd Geruch (DE-588)4020433-9 gnd |
| subject_GND | (DE-588)4129703-9 (DE-588)4020433-9 |
| title | Odor memory and perception |
| title_auth | Odor memory and perception |
| title_exact_search | Odor memory and perception |
| title_full | Odor memory and perception ed. by Edi Barkai ; Donald A. Wilson |
| title_fullStr | Odor memory and perception ed. by Edi Barkai ; Donald A. Wilson |
| title_full_unstemmed | Odor memory and perception ed. by Edi Barkai ; Donald A. Wilson |
| title_short | Odor memory and perception |
| title_sort | odor memory and perception |
| topic | Geruchssinn (DE-588)4129703-9 gnd Geruch (DE-588)4020433-9 gnd |
| topic_facet | Geruchssinn Geruch |
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