Neurosciences: from molecule to behavior: a university textbook
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Berlin [u.a.]
Springer
2013
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Basierend auf der 2. Aufl. von Neurowissenschaft / Josef Dudel, Randolf Menzel [u.a.] |
| Beschreibung: | XIV, 736 S. Ill., graph. Darst. |
| ISBN: | 3642107680 9783642107689 |
Internformat
MARC
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| 245 | 1 | 0 | |a Neurosciences |b from molecule to behavior: a university textbook |c C. Giovanni Galizia ... eds. |
| 264 | 1 | |a Berlin [u.a.] |b Springer |c 2013 | |
| 300 | |a XIV, 736 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 500 | |a Basierend auf der 2. Aufl. von Neurowissenschaft / Josef Dudel, Randolf Menzel [u.a.] | ||
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| 650 | 0 | 7 | |a Neurophysiologie |0 (DE-588)4041897-2 |2 gnd |9 rswk-swf |
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| 700 | 1 | |a Galizia, Cosmas Giovanni |e Sonstige |0 (DE-588)140681663 |4 oth | |
| 700 | 1 | |a Dudel, Josef |d 1930- |e Sonstige |0 (DE-588)122323521 |4 oth | |
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| 999 | |a oai:aleph.bib-bvb.de:BVB01-026106152 | ||
Datensatz im Suchindex
| _version_ | 1804150523521138688 |
|---|---|
| adam_text | Contents
1
From Neurophysiology to
Neuroscience: New Technologies
and New Concepts
in the Twentieth Century
.................... 1
François Clarac
1.1
Nervous
System Explorations
from
1900
to
1950.............. 2
1.2
New
Scientific Developments and the Foundation
of
Neuroscience
........................................ 5
1.3
Neuroscience m
Progress:
1960-2000....................... 7
1.4
Computational
Neuroscience..............................
11
1.5
History of Animal Models
............................... 11
References
................................................. 16
2
Evolution of Nervous Systems and Brains
....................... 19
Gerhard Roth and Ursula
Dicke
2.1
Reconstruction of the Evolution of Nervous Systems
and
Bramš............................................. 19
2.2
Organisms Without a Nervous System
....................... 20
2.3
Nervous Systems
m Eumetazoans
.......................... 21
2.4
Major Evolutionary Changes of the Vertebrate
Bram
............ 38
2.5
Bram
and Intelligence
.................................... 41
2.6
Convergence or Deep Homologies ?
....................... 42
2.7
Summary
-
Major Trends in the Evolution of
Nervous Systems and
Bramš............................... 43
References
................................................. 44
3
Ontogeny of the Vertebrate Nervous System
..................... 47
Salvador Martinez,
Eduardo
Puelles, and Diego Echevaxna
3.1
Induction and Regionalization of the Neural Plate:
The Planar Map
......................................... 47
3.2
Topologie
and Topographic Patterning of the Early Brain:
Dorsoventral
(DV)
Patterning and Antenor-Postenor
(AP) Patterning
......................................... 49
3.3
Regionalization of the Neural Tube
......................... 52
3.4
Genetic Regionahzation According to Brain Subdivisions:
The Importance of Secondary Organizers
.................... 53
3.5
Summary
.............................................. 60
References
................................................. 61
Contents
4
Diseases
................................................... 63
Jean-Jacques Hauw, Mane-Anne Colle,
and Danielle
Seilhean
4.1
Main Mechanisms of Cell Pathology in the Nervous System
...... 63
4.2
Representative Diseases
.................................. 66
References
................................................. 74
5
Neurophilosophy
........................................... 75
Georg Northoff
5.1
Background: The History of Neurophilosophy
................. 75
5.2
Empirical Neurophilosophy
-
Experimental Investigation
of Philosophical Concepts
................................. 76
5.3
Theoretical Neurophilosophy
-
Methodology
and Knowledge of the Linkage Between Brain
Data and Philosophical Concepts
........................... 77
5.4
Practical Neurophilosophy
-
Neuroethics and the
Relevance of Ethical Concerns in
Neuroscience
............... 78
5.5
Summary
.............................................. 79
References
................................................. 79
6
Cellular and Molecular Basis of Neural Function
................ 81
Herbert
Zimmermann
6.1
Cell Membranes
........................................ 81
6.2
From Gene to Functional Protein
........................... 85
6.3
Membrane Transport
..................................... 92
6.4
Cell Communication
..................................... 94
6.5
Filamentous Cell Proteins Form the Cytoskeleton
.............. 101
6.6
Molecular Motors and Axonal Transport
..................... 103
6.7
Membrane Trafficking, Exocytosis, and Endocytosis
............ 107
6.8
Summary
.............................................. 110
References
.................................................
Ill
Recommended Textbooks
..................................... 112
7
Electrical Activity in Neurons
................................. 113
Veronica Egger and Dirk Feldmeyer
7.1
Ion Channel Function: General Principles
.................... 114
7.2
Voltage-Gated Cation Channels
............................ 117
7.3
Chlonde Channels
....................................... 127
7.4
Resting Potential
........................................ 128
7.5
Regenerative Activity: Na+ and Ca2+ Action Potentials
.......... 134
7.6
Conduction of Electricity in Neurons
........................ 137
7.7
Summary and Outlook
................................... 142
References
................................................. 142
8
The Synapse
............................................... 145
Christian
Lüscher
and Carl Petersen
8.1
Phylogeny of the Synapse
................................. 146
8.2
Structure and Diversity of Synapses
......................... 146
8.3
Synaptic Release
........................................ 148
8.4
Ligand-Gated Synaptic Membrane Channels for
Glutamate
...... 149
8.5
Ligand-Gated Synaptic Membrane Channels for
GABA
......... 151
8.6
Slow Synaptic Currents Mediated by
G
Protein-Coupled
Receptors
.............................................. 152
8.7
Retrograde Signaling at Central Synapses
.................... 153
Contents
8.8
Electrical Synapses
...................................... 153
8.9
Short-Term Synaptic Plasticity
............................. 155
8.10
Long-Term Synaptic
Plasticity: Postsynaptic Forms
............ 156
8.11
Long-Term
Synaptic Plasticity: Presynaptic Forms
............. 158
8.12
Structural Synaptic Plasticity
.............................. 158
8.13
Synapses and Disease
.................................... 159
8.14
Summary
.............................................. 160
References
................................................. 161
Additional Readings
.......................................... 161
9
Biology and Function of GliaJ Cells
............................ 163
Magdalena Götz
9.1
Invertebrate
Glia
........................................ 164
9.2
Vertebrate
Glia.........................................
168
9.3
Summary and Outlook
................................... 176
References
................................................. 176
10
The
Autonomie
Nervous System
............................... 179
Wilfrid
Jänig
10.1
Neural and Neuroendocnne Regulation of
Visceral Body Functions: An Overview
...................... 179
10.2
Organization of the
Autonomie
Nervous System in Mammals
.... 180
10.3
Functional
Autonomie
Motor Pathways
...................... 183
10.4
Transmission of Signals in Peripheral
Autonomie
Pathways
...... 186
10.5
The Enteric Nervous System
............................... 197
10.6
Central Organization of the
Autonomie
Nervous System: A Summary
.............................. 199
10.7
The Peripheral
Autonomie
Nervous System in
Non-Mammalian Vertebrates: A Comparative View
............ 200
10.8
Regulation of Body Tissues in Invertebrates
.................. 205
References
................................................. 209
11
Neuropeptides and
Peptide
Hormones
.......................... 213
Dick R.
N
assel
and Dan Larhammar
11.1
Neuropeptides,
Peptide
Hormones, and Their Receptors
......... 214
11.2
Morphology and Function of Neurosecretory
Cells and Peptidergic Neurons
............................. 215
11.3
Organization of Neuroendocnne and Peptidergic
Systems in Invertebrates
.................................. 217
11.4
Comparing Functional Roles of Some Neuropeptides
and
Peptide
Hormones Across Phyla
........................ 226
11.5
Vertebrate Neuropeptides and
Peptide
Hormones
.............. 227
11.6
Neuropeptides as (Co/Transmitters in the Brain of Vertebrates
.... 234
11.7
Summary
.............................................. 236
References
................................................. 237
Further Readings
............................................ 237
12
The Biological Function of Sensory Systems
..................... 239
Rainer Mausfeld
12.1
Key Terminology and Key Issues of General
Sensory Physiology
...................................... 240
12.2
Neurophysics and Neurobiology of Sensory Systems
........... 241
12.3
Sensory Information Can Be Coded in Frequency
Codes or in Temporal Codes
............................... 243
Contents
12.4
üestall-Fikers
for Complex Environmental Features
Can Be Realized by Suitable Neural Networks
................ 246
12.5
Behavioral Biology of Sensory Systems: Neuroethology
and Comparative Sensory Physiology
....................... 247
12.6
Psychophysics and Perceptual Psychology
.................... 247
References
................................................. 25 1
13
Olfaction
.................................................. 253
С.
Giovanni Galizia and Pierre-Marie Lledo
13.1
The Theory of Olfactory Coding
........................... 253
13.2
Olfaction
in Insects
...................................... 256
13.3
Olfaction
in Crustaceans
.................................. 265
13.4
Olfaction
in Nematodes
.................................. 267
13.5
Olfaction
in Other Invertebrates
............................ 268
13.6
Olfaction
in Vertebrates
.................................. 269
13.7
Summary
.............................................. 282
References
................................................. 283
14
Taste
...................................................... 285
Wolfgang Meyerhof
14.1
Taste Qualities and Taste Molecules
......................... 286
14.2
The Mammalian Gustatory System
......................... 287
14.3
The Insect Gustatory System
.............................. 297
14.4
The Chemosensory System of Caenorhabditis
elegans
.......... 299
14.5
Role of Taste in Feeding and Nut.nti.on
....................... 301
References
................................................. 302
15
Thermosensation
........................................... 303
Carlos
Belmonte
Martinez and
Elvira de la Peña García
15.1
Influence of Temperature on Living Organisms
................ 303
15.2
Temperature
Sensing
..................................... 304
15.3
Thermotransduction Molecules
............................ 304
15.4
Thennoreceptor Cells
.................................... 307
15.5
Temperature Detection in Ectotherms
....................... 308
15.6
Temperature Detection in Endotherms
....................... 310
15.7
Behavioral Responses to Thermosensory Information
........... 315
References
................................................. 318
16
Mechanosensation
.......................................... 321
Jörg
T.
Albert and
Martin
C. Göpfert
16.1
A Mechanosensory System in a Nutshell:
The Osmotic Shock Response of
E. Coli
..................... 322
16.2
Mechanoelectncal Transduction
-
Ciliates and the
Advent of Ion Selectivity and Specificity
..................... 322
16.3
Mechanoelectrical Transduction in Sensory
Cells
--
Mechanisms and Genes
............................ 323
16.4
The
Mammaljan Somatosensory
System
..................... 330
16.5
Central Processing of Mechanosensory Information
-
Converting Mechanosensory Information into Behavioral
Responses
............................................. 332
References
................................................. 334
Contents
17
Auditory
Systems........................................... 337
Günter Ehret and Martin C. Göpfert
17.1
The Physics of the Stimulus
............................... 337
17.2
Mammals
.............................................. 338
17.3
Birds, Reptiles, and Amphibians
........................... 353
17.4
Fish
.................................................. 355
17.5
Insects
................................................ 358
17.6
Other Invertebrates
...................................... 361
References
................................................. 36]
18
Vision
..................................................... 363
Jutta Rretzberg
and
Udo Ernst
18.1
The Physics of the Stimulus
............................... 363
18.2
Mammals: Vision in Primates
.............................. 365
18.3
Specific Differences in Other Vertebrates
..................... 395
18.4
Insects
................................................ 398
18.5
Specific Differences in Other Invertebrates
................... 402
18.6
Summary
.............................................. 405
References
................................................. 406
19
Electroreception
............................................ 409
Gerhard
von der Emde
19.1
Electroreception in Nature
................................ 409
19.2
Electroreception in Mammals
.............................. 410
19.3
Passive Electrolocation in Fishes
........................... 410
19.4
Strongly Electric Fishes
.................................. 414
19.5
Weakly Electric Fish
..................................... 414
References
................................................. 424
20
The Magnetic Senses
........................................ 427
Henrik
Mountsen
20.1
Magnetic Fields
......................................... 427
20.2
The Earth s Magnetic Field
................................ 428
20.3
How Can We Study the Influence of the Earth s Magnetic
Field on Animal Behavior9
................................ 429
20.4
Interactions with Other Cues
.............................. 434
20.5
How Can Animals Possibly Sense the Geomagnetic Field?
....... 435
20.6
Irreproducible
Results and the Urgent Need
for Independent Replication
............................... 440
20.7
Where Do We Go from Here?
.............................. 440
References
................................................. 442
21
Pain and Nociception
........................................ 445
Maria P.
Abbraccino
and
Angelo
M.
Reggiani
21.1
The Physics of the Stimulus
............................... 446
21.2
Pain in Humans
......................................... 446
21.3
Pain in Animals Other than Mammals
....................... 455
21.4
Pain Therapy in Humans: Current and Future
................. 457
References
................................................. 459
Further Readings
............................................ 459
Contents
22
Muscles
and Motility
............................
Ingo Morano
22.1
Control of Muscle Function in the Vertebrate Body.
22.2
Structure of the Vertebrate Skeletal Muscles
......
22.3
Energetics of Muscle Contraction
...............
22.4
Excitation-Contraction Coupling
...............
22.5
Skeletal Muscle Fiber Types and Regulation
of Force Generation
.........................
22.6
Skeletal Muscle Fatigue
......................
22.7
The Musculature of the Mammalian Heart
........
22.8
The Mammalian Smooth Musculature
...........
22.9
Muscles in Invertebrates
......................
References
.....................................
23
Motor Control
.................................
Flans-Joachim
Pflüger
and Keith
Sillar
23.1
Introduction
................................
23.2
The Neuromuscular Basics
....................
23.3
Comparison Between Invertebrate and Vertebrate
Skeletal Muscles
............................
23.4
Common Principles in the Generation and Control
of Motor Patterns in Vertebrates and Invertebrates
. .
23.5
Sensory Feedback Together with Central Pattern
Generators Produce Appropriate Motor Behavior
. .
23.6
Decision Making for a Particular Motor Pattern.
. . .
23.7
Summary
..................................
References
.....................................
24
The Neural Bases of Emotions
....................
Tamara
В.
Franklin and
Isabelle M. Mansuy
24.1
Theories of
Emotion
.........................
24.2
Neuroanatoiny of Emotion
....................
24.3
Stress
.....................................
24.4
Disorders of Emotional State: Depression
and Anxiety Disorders
.......................
24.5
Fear Learning and Memory
...................
24.6
Motivation and Emotion
......................
24.7
Summary and Outlook
.......................
References
.....................................
25
Experience-Dependent Plasticity in the
Central Nervous System
.........................
José
Fernando Maya-Vetencourt and Matteo Caleo
25.1
Genetic Factors and Sensory Experience Sculpt,
the Nervous System Architecture
...............
25.2
Plasticity of the Nervous System is High During
Critical Periods but Decreases Thereafter
.........
25.3
Experience-Dependent Forms of Plasticity in the
Visual System
.............................
461
461
463
466
468
469
471
472
474
475
477
479
479
480
482
487
490
511
522
523
525
525
528
532
535
543
549
550
551
553
554
555
556
Contents
25.4
Structural and Functional Mechanisms that Control
Critical Period Plasticity in the Visual System
................ 559
25.5
Hebbian Plasticity and NMDA-Type
Glutamate
Receptors
...... 562
25.6
Long-Term Potentiation (LTP) and
Long-Term
Depression (LTD)
...................................... 562
25.7
Homeostatic Plasticity
.................................. 563
25.8
Structural Underpinnings of Experience-Dependent Plasticity
... 564
25.9
Short Noncodmg RNAs and the Regulation of
Experience-Dependent Plasticity
.......................... 565
25.10
The Process of Plasticity Reactivation in the Adult
Visual System
......................................... 565
25.11
Early Experience Influences Rodents Behavior
by Modifications of Chromatin Structure
.................... 566
25.12
Experience-Dependent Plasticity in the Auditory System
....... 567
25.13
Experience-Dependent Plasticity in
the Somatosensory System
............................... 572
25.14
Plasticity in the Olfactory System
.......................... 574
25.15
Cross-Modal Developmental Plasticity
..................... 574
25.16
Summary
............................................. 575
References
................................................. 575
26
Cellular Correlates of Learning and Memory
................... 577
Martin
Korte
26.1
Forms of Learning
...................................... 578
26.2
Model Systems
........................................ 580
26.3
Nonassociative Learning in Simple Organisms
............... 580
26.4
Associativity and Classical Conditioning
in Simple Organisms
.................................... 583
26.5
Learning and Memory in the Vertebrate Brain
................ 588
26.6
Long-Term Maintenance of Synaptic Plasticity
............... 601
26.7
Summary
............................................. 607
References
................................................. 608
27
Circadian Timing
........................................... 609
François Rouyer
27.1
Circadian Clocks
....................................... 610
27.2
Molecular Mechanisms of Circadian Oscillators
.............. 614
27.3
Neural Organization of the Fly Clock
....................... 617
27.4
Neural Organization of the Mammalian Clock
................ 622
References
................................................. 626
28
Learning, Memory, and Cognition: Animal Perspectives
.......... 629
Randolf
Menzel
28.1
Cognition: Definition
................................... 629
28.2
Innate and Learned Behavior
............................. 630
28.3
Learning: Elemental Forms of Associative Learning
........... 631
28.4
Nonelemental Forms of Associative Learning
................ 639
28.5
Working Memory: Planning and Decision Making
............ 650
28.6
Animal Thinking: The Basics
............................. 652
References
................................................. 653
Contents
29 Primate
Social
Intelligence
................................... 655
Julia Fischer
29.1
Brain Size Evolution
..................................... 655
29.2 Primate
Social Relationships
.............................. 656
29.3
Social
Knowledge
....................................... 658
29.4
Social
Learning
......................................... 659
29.5
Theory of Mind
......................................... 661
29.6
Primate Communication
.................................. 665
29.7
Summary
.............................................. 667
References
................................................. 668
30
Computational
Neuroscience:
Capturing the Essence
............. 671
Shaul
Druckmann,
Albert Gidon, and Id
ал
Segev
30.1
Neurons: Input-Output. Plastic Devices
....................... 671
30.2
Computation in
Neuronal
Networks
......................... 685
30.3
Summary
.............................................. 692
References
................................................. 693
Index
......................................................... 695
|
| any_adam_object | 1 |
| author_GND | (DE-588)140681663 (DE-588)122323521 |
| building | Verbundindex |
| bvnumber | BV041130316 |
| classification_rvk | WW 2200 YG 1000 |
| classification_tum | DAT 717f BIO 781f PSY 480f MED 606f |
| ctrlnum | (OCoLC)856814883 (DE-599)DNB102305891X |
| dewey-full | 573.8 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 573 - Specific physiological systems in animals |
| dewey-raw | 573.8 |
| dewey-search | 573.8 |
| dewey-sort | 3573.8 |
| dewey-tens | 570 - Biology |
| discipline | Biologie Informatik Psychologie Medizin |
| format | Book |
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| genre | (DE-588)4123623-3 Lehrbuch gnd-content |
| genre_facet | Lehrbuch |
| id | DE-604.BV041130316 |
| illustrated | Illustrated |
| indexdate | 2024-07-10T00:40:17Z |
| institution | BVB |
| isbn | 3642107680 9783642107689 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-026106152 |
| oclc_num | 856814883 |
| open_access_boolean | |
| owner | DE-355 DE-BY-UBR DE-11 DE-91 DE-BY-TUM DE-20 DE-188 DE-12 |
| owner_facet | DE-355 DE-BY-UBR DE-11 DE-91 DE-BY-TUM DE-20 DE-188 DE-12 |
| physical | XIV, 736 S. Ill., graph. Darst. |
| publishDate | 2013 |
| publishDateSearch | 2013 |
| publishDateSort | 2013 |
| publisher | Springer |
| record_format | marc |
| spelling | Neurosciences from molecule to behavior: a university textbook C. Giovanni Galizia ... eds. Berlin [u.a.] Springer 2013 XIV, 736 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Basierend auf der 2. Aufl. von Neurowissenschaft / Josef Dudel, Randolf Menzel [u.a.] Nervensystem (DE-588)4041643-4 gnd rswk-swf Neurophysiologie (DE-588)4041897-2 gnd rswk-swf (DE-588)4123623-3 Lehrbuch gnd-content Nervensystem (DE-588)4041643-4 s DE-604 Neurophysiologie (DE-588)4041897-2 s DE-188 DE-604 Galizia, Cosmas Giovanni Sonstige (DE-588)140681663 oth Dudel, Josef 1930- Sonstige (DE-588)122323521 oth Erscheint auch als Online-Ausgabe 978-3-642-10769-6 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026106152&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Neurosciences from molecule to behavior: a university textbook Nervensystem (DE-588)4041643-4 gnd Neurophysiologie (DE-588)4041897-2 gnd |
| subject_GND | (DE-588)4041643-4 (DE-588)4041897-2 (DE-588)4123623-3 |
| title | Neurosciences from molecule to behavior: a university textbook |
| title_auth | Neurosciences from molecule to behavior: a university textbook |
| title_exact_search | Neurosciences from molecule to behavior: a university textbook |
| title_full | Neurosciences from molecule to behavior: a university textbook C. Giovanni Galizia ... eds. |
| title_fullStr | Neurosciences from molecule to behavior: a university textbook C. Giovanni Galizia ... eds. |
| title_full_unstemmed | Neurosciences from molecule to behavior: a university textbook C. Giovanni Galizia ... eds. |
| title_short | Neurosciences |
| title_sort | neurosciences from molecule to behavior a university textbook |
| title_sub | from molecule to behavior: a university textbook |
| topic | Nervensystem (DE-588)4041643-4 gnd Neurophysiologie (DE-588)4041897-2 gnd |
| topic_facet | Nervensystem Neurophysiologie Lehrbuch |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=026106152&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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