The fly neuromuscular junction: structure and function
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Amsterdam [u.a.]
Elsevier
2006
|
| Ausgabe: | 2. ed. |
| Schriftenreihe: | International review of neurobiology
75 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Einzelaufnahme eines Zeitschr.-Bd. |
| Beschreibung: | XIV, 406 S., [12] Bl. Ill., graph. Darst. |
| ISBN: | 0123736137 9780123736130 |
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| 245 | 1 | 0 | |a The fly neuromuscular junction |b structure and function |c ed. by Vivian Budnik ... |
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Datensatz im Suchindex
| _version_ | 1804135651564584960 |
|---|---|
| adam_text | CONTENTS
Contributors xi
Preface xiii
Introduction on the Use of the Drosophila Embryonic/Larval
Neuromuscular Junction as a Model System to Study Synapse
Development and Function, and a Brief Summary of Pathfinding
and Target Recognition
Catalina Ruiz-Canada and Vivian Budnik
I. Introduction 2
II. Some History 3
III. The Larval NMJ Is Highly Tractable 4
IV. Methodology to Study NMJ Development 6
V. Pathfinding at the Larval NMJ 10
VI. Synaptic Target Recognition 16
VII. Dynamics of the Target Muscle 20
VIII. Conclusions 21
References 22
Development and Structure of Motoneurons
Matthias Landgraf and Stefan Thor
I. Introduction 34
II. Development of Motoneurons 34
III. Class-Specific Patterns of Axonal Trajectories 40
IV. Dendritic Development 43
V. Conclusions 48
References 48
The Development of the Drosophila Larval Body Wall Muscles
Karen Beckett and Mary K. Baylies
I. Introduction 55
II. Muscle Specification 57
v
vi CONTENTS
III. Muscle Identity 59
IV. Myoblast Fusion 61
V. Muscle Attachment 65
VI. Concluding Remarks 67
References 67
Organization of the Efferent System and Structure of
Neuromuscular Junctions in Drosophila
Andreas Prokop
I. Introduction 71
II. General Organization of the Efferent System 73
HI. Neuromodulation? The Organization of Type-II and
Type-Ill Terminals 75
IV. Synaptic Junctions: The Development, Morphology, and
Classification of Type-I Terminals 79
V. Ultrastructure of Neuromuscular Synapses 82
VI. Conclusions 84
References 84
Development of Motoneuron Electrical Properties and Motor Output
Richard A. Baines
I. Introduction 92
II. Development of Electrical Properties in Motoneurons 92
III. Development of Synaptic Connectivity 94
IV. Regulation of Membrane Excitability 95
V. Regulation of Synaptic Connectivity 98
VI. Summary 101
References 101
Transmitter Release at the Neuromuscular Junction
Thomas L. Schwarz
I. Introduction 106
II. Physiological Properties of Transmitter Release 107
III. Experimental Advantages and Limitations of the Fly NMJ 110
IV. How Do Vesicles Fuse: Full Fusion or Kiss-and-Run? 112
V. Core Machinery of Exocytosis: Syntaxin, VAMP/Synaptobrevin,
and SNAP-25 114
VI. Vesicular ATPase and Membrane Fusion 122
VII. NSF and the Resetting of the SNARE Machinery 123
VIII. Synaptotagmin and the Regulation of Transmitter Release 125
IX. Exocyst at the NMJ 130
CONTENTS vii
X. Other Mutations of Proteins on the Target Membrane 132
XI. Mutations in Peripheral Synaptic Vesicle Proteins 134
XII. Summary 136
References 136
Vesicle Traffcking and Recycling at the Neuromuscular Junction:
Two Pathways for Endocytosis
YOSHIAKI KlDOKORO
I. Introduction 146
II. Role of Ca2+ During Endocytosis 147
III. Distribution and Function of Different Synaptic Vesicles Pools 153
IV. Mechanism of Endocytosis at Presynaptic Terminals 158
V. Perspectives 161
References 162
Glutamate Receptors at the Drosophila Neuromuscular Junction
Aaron DiAntonio
I. Introduction 165
II. Composition of Glutamate Receptors 167
III. Receptor Subtypes at the NMJ: DGluRIIA Versus DGluRIIB 169
IV. Clustering of Glutamate Receptors 171
V. Glutamate Receptors and Synaptic Plasticity 174
VI. Conclusions 176
References 176
Scaffolding Proteins at the Drosophila Neuromuscular Junction
Bulent Ataman, Vivian Budnik, and Ulrich Thomas
I. Introduction 182
II. Structure of the Drosophila Larval Neuromuscular Junction 183
III. Multidomain Organization of Scaffolding Proteins 184
IV. Dig-Based Scaffold at the NMJ 184
V. Dystrophin 197
VI. dGRIP 198
VII. dXll/dMint/dI.in-10 199
VIII. Dliprin-o 202
IX. Bruchpilot: A Crash Pilot Targets the Active Zone 204
X. Bazooka (Par-3)/Par-6/aPKC 205
XI. Missing Prominents: Homer/Vesl, Shank/ProSAP, and
GKAP/SAPAP 206
XII. Perspectives 207
References 208
viii CONTENTS
Synoptic Cytoskeleton at the Neuromuscular Junction
Catalina Ruiz-Canada and Vivian Budnik
I. Introduction 218
II. Organization and Stability of Presynaptic Microtubules:
A Role for Futsch 219
III. Presynaptic MT Rearrangements: Straight Versus Looped MTs 222
IV. Other Regulators of MT Stability at the NMJ 223
V. Mechanisms of Signaling to the Presynaptic Cytoskeleton 225
VI. Actin/Spectrin Cytoskeleton 229
VII. Postsynaptic Cytoskeleton and Glutamate Receptor Anchoring 232
VIII. Perspectives 233
References 234
Plasticity and Second Messengers During Synapse Development
Leslie C. Griffith and Vivian Budnik
I. Introduction 237
II. Manifestations of Plasticity at the Larval Neuromuscular Junction 239
III. Plasticity-Inducing Signals at the Larval Neuromuscular Junction 241
IV. Major Intracellular Effectors of Plasticity at the
Neuromuscular Junction 252
V. Conclusions 258
References 258
Retrograde Signaling that Regulates Synoptic Development and
Function at the Drosophila Neuromuscular Junction
Guillermo Marques and Bing Zhang
I. Introduction 268
II. Retrograde Signaling Revealed by Postsynaptic Manipulations 269
III. Known Retrograde Signals and Receptors 274
IV. Postsynaptic Signal Integration with the BMP Pathway 276
V. Presynaptic Signal Transduction for BMP Signaling 278
VI. Perspectives 280
References 281
CONTENTS ix
Activity-Dependent Regulation of Transcription During
Development of Synapses
SUBHABRATA SANYAL AND MANI RaMASWAMI
I. Introduction 288
II. Mechanisms of Transcriptional Activation During
Long-Term Plasticity 289
III. Experimental Paradigms of Protein Synthesis-Dependent
Long-Term Plasticity in Drosophila 291
IV. NMJ as a Model Synapse to Study Transcriptional Regulation
of Developmental Plasticity 293
V. Open Questions and Areas of Convergence 298
References 300
Experience-Dependent Potentiation of Larval Neurornuscular Synapses
Christoph M. Schuster
I. Introduction 308
II. Strategies to Alter the Activity of Motoneurons and NMJ Usage 308
HI. Experience-Dependent Synaptic Potentiation at NMJs 310
IV. Mechanisms Involved in Experience-Dependent Potentiation 315
V. Outlook 320
References 320
Selected Methods for the Anatomical Study of Drosophila
Embryonic and Larval Neuromuscular Junctions
Vivian Budnik, Michael Gorczyca, and Andreas Prokop
I. List of Protocols 323
II. Protocols 324
III. Solutions 357
IV. Suppliers of Materials for Making Magnetic Chambers 363
References 364
Appendix 367
Index 375
Contents of Recent Volumes 387
|
| adam_txt |
CONTENTS
Contributors xi
Preface xiii
Introduction on the Use of the Drosophila Embryonic/Larval
Neuromuscular Junction as a Model System to Study Synapse
Development and Function, and a Brief Summary of Pathfinding
and Target Recognition
Catalina Ruiz-Canada and Vivian Budnik
I. Introduction 2
II. Some History 3
III. The Larval NMJ Is Highly Tractable 4
IV. Methodology to Study NMJ Development 6
V. Pathfinding at the Larval NMJ 10
VI. Synaptic Target Recognition 16
VII. Dynamics of the Target Muscle 20
VIII. Conclusions 21
References 22
Development and Structure of Motoneurons
Matthias Landgraf and Stefan Thor
I. Introduction 34
II. Development of Motoneurons 34
III. Class-Specific Patterns of Axonal Trajectories 40
IV. Dendritic Development 43
V. Conclusions 48
References 48
The Development of the Drosophila Larval Body Wall Muscles
Karen Beckett and Mary K. Baylies
I. Introduction 55
II. Muscle Specification 57
v
vi CONTENTS
III. Muscle Identity 59
IV. Myoblast Fusion 61
V. Muscle Attachment 65
VI. Concluding Remarks 67
References 67
Organization of the Efferent System and Structure of
Neuromuscular Junctions in Drosophila
Andreas Prokop
I. Introduction 71
II. General Organization of the Efferent System 73
HI. Neuromodulation? The Organization of Type-II and
Type-Ill Terminals 75
IV. Synaptic Junctions: The Development, Morphology, and
Classification of Type-I Terminals 79
V. Ultrastructure of Neuromuscular Synapses 82
VI. Conclusions 84
References 84
Development of Motoneuron Electrical Properties and Motor Output
Richard A. Baines
I. Introduction 92
II. Development of Electrical Properties in Motoneurons 92
III. Development of Synaptic Connectivity 94
IV. Regulation of Membrane Excitability 95
V. Regulation of Synaptic Connectivity 98
VI. Summary 101
References 101
Transmitter Release at the Neuromuscular Junction
Thomas L. Schwarz
I. Introduction 106
II. Physiological Properties of Transmitter Release 107
III. Experimental Advantages and Limitations of the Fly NMJ 110
IV. How Do Vesicles Fuse: Full Fusion or Kiss-and-Run? 112
V. Core Machinery of Exocytosis: Syntaxin, VAMP/Synaptobrevin,
and SNAP-25 114
VI. Vesicular ATPase and Membrane Fusion 122
VII. NSF and the Resetting of the SNARE Machinery 123
VIII. Synaptotagmin and the Regulation of Transmitter Release 125
IX. Exocyst at the NMJ 130
CONTENTS vii
X. Other Mutations of Proteins on the Target Membrane 132
XI. Mutations in Peripheral Synaptic Vesicle Proteins 134
XII. Summary 136
References 136
Vesicle Traffcking and Recycling at the Neuromuscular Junction:
Two Pathways for Endocytosis
YOSHIAKI KlDOKORO
I. Introduction 146
II. Role of Ca2+ During Endocytosis 147
III. Distribution and Function of Different Synaptic Vesicles Pools 153
IV. Mechanism of Endocytosis at Presynaptic Terminals 158
V. Perspectives 161
References 162
Glutamate Receptors at the Drosophila Neuromuscular Junction
Aaron DiAntonio
I. Introduction 165
II. Composition of Glutamate Receptors 167
III. Receptor Subtypes at the NMJ: DGluRIIA Versus DGluRIIB 169
IV. Clustering of Glutamate Receptors 171
V. Glutamate Receptors and Synaptic Plasticity 174
VI. Conclusions 176
References 176
Scaffolding Proteins at the Drosophila Neuromuscular Junction
Bulent Ataman, Vivian Budnik, and Ulrich Thomas
I. Introduction 182
II. Structure of the Drosophila Larval Neuromuscular Junction 183
III. Multidomain Organization of Scaffolding Proteins 184
IV. Dig-Based Scaffold at the NMJ 184
V. Dystrophin 197
VI. dGRIP 198
VII. dXll/dMint/dI.in-10 199
VIII. Dliprin-o 202
IX. Bruchpilot: A Crash Pilot Targets the Active Zone 204
X. Bazooka (Par-3)/Par-6/aPKC 205
XI. Missing Prominents: Homer/Vesl, Shank/ProSAP, and
GKAP/SAPAP 206
XII. Perspectives 207
References 208
viii CONTENTS
Synoptic Cytoskeleton at the Neuromuscular Junction
Catalina Ruiz-Canada and Vivian Budnik
I. Introduction 218
II. Organization and Stability of Presynaptic Microtubules:
A Role for Futsch 219
III. Presynaptic MT Rearrangements: Straight Versus Looped MTs 222
IV. Other Regulators of MT Stability at the NMJ 223
V. Mechanisms of Signaling to the Presynaptic Cytoskeleton 225
VI. Actin/Spectrin Cytoskeleton 229
VII. Postsynaptic Cytoskeleton and Glutamate Receptor Anchoring 232
VIII. Perspectives 233
References 234
Plasticity and Second Messengers During Synapse Development
Leslie C. Griffith and Vivian Budnik
I. Introduction 237
II. Manifestations of Plasticity at the Larval Neuromuscular Junction 239
III. Plasticity-Inducing Signals at the Larval Neuromuscular Junction 241
IV. Major Intracellular Effectors of Plasticity at the
Neuromuscular Junction 252
V. Conclusions 258
References 258
Retrograde Signaling that Regulates Synoptic Development and
Function at the Drosophila Neuromuscular Junction
Guillermo Marques and Bing Zhang
I. Introduction 268
II. Retrograde Signaling Revealed by Postsynaptic Manipulations 269
III. Known Retrograde Signals and Receptors 274
IV. Postsynaptic Signal Integration with the BMP Pathway 276
V. Presynaptic Signal Transduction for BMP Signaling 278
VI. Perspectives 280
References 281
CONTENTS ix
Activity-Dependent Regulation of Transcription During
Development of Synapses
SUBHABRATA SANYAL AND MANI RaMASWAMI
I. Introduction 288
II. Mechanisms of Transcriptional Activation During
Long-Term Plasticity 289
III. Experimental Paradigms of Protein Synthesis-Dependent
Long-Term Plasticity in Drosophila 291
IV. NMJ as a Model Synapse to Study Transcriptional Regulation
of Developmental Plasticity 293
V. Open Questions and Areas of Convergence 298
References 300
Experience-Dependent Potentiation of Larval Neurornuscular Synapses
Christoph M. Schuster
I. Introduction 308
II. Strategies to Alter the Activity of Motoneurons and NMJ Usage 308
HI. Experience-Dependent Synaptic Potentiation at NMJs 310
IV. Mechanisms Involved in Experience-Dependent Potentiation 315
V. Outlook 320
References 320
Selected Methods for the Anatomical Study of Drosophila
Embryonic and Larval Neuromuscular Junctions
Vivian Budnik, Michael Gorczyca, and Andreas Prokop
I. List of Protocols 323
II. Protocols 324
III. Solutions 357
IV. Suppliers of Materials for Making Magnetic Chambers 363
References 364
Appendix 367
Index 375
Contents of Recent Volumes 387 |
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| illustrated | Illustrated |
| index_date | 2024-07-02T15:41:06Z |
| indexdate | 2024-07-09T20:43:54Z |
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| isbn | 0123736137 9780123736130 |
| language | English |
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| series2 | International review of neurobiology |
| spelling | The fly neuromuscular junction structure and function ed. by Vivian Budnik ... 2. ed. Amsterdam [u.a.] Elsevier 2006 XIV, 406 S., [12] Bl. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier International review of neurobiology 75 Einzelaufnahme eines Zeitschr.-Bd. Drosophila (DE-588)4150708-3 gnd rswk-swf Motorische Endplatte (DE-588)4170600-6 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Aufsatzsammlung - Drosophila - Motorische Endplatte Drosophila (DE-588)4150708-3 s Motorische Endplatte (DE-588)4170600-6 s b DE-604 Budnik, Vivian Sonstige oth HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014992256&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | The fly neuromuscular junction structure and function Drosophila (DE-588)4150708-3 gnd Motorische Endplatte (DE-588)4170600-6 gnd |
| subject_GND | (DE-588)4150708-3 (DE-588)4170600-6 (DE-588)4143413-4 |
| title | The fly neuromuscular junction structure and function |
| title_auth | The fly neuromuscular junction structure and function |
| title_exact_search | The fly neuromuscular junction structure and function |
| title_exact_search_txtP | The fly neuromuscular junction structure and function |
| title_full | The fly neuromuscular junction structure and function ed. by Vivian Budnik ... |
| title_fullStr | The fly neuromuscular junction structure and function ed. by Vivian Budnik ... |
| title_full_unstemmed | The fly neuromuscular junction structure and function ed. by Vivian Budnik ... |
| title_short | The fly neuromuscular junction |
| title_sort | the fly neuromuscular junction structure and function |
| title_sub | structure and function |
| topic | Drosophila (DE-588)4150708-3 gnd Motorische Endplatte (DE-588)4170600-6 gnd |
| topic_facet | Drosophila Motorische Endplatte Aufsatzsammlung Aufsatzsammlung - Drosophila - Motorische Endplatte |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014992256&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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