Verfügbarkeit: Genetic analyses of sensory and motoneuron physiology in Drosophila melanogaster

Genetic analyses of sensory and motoneuron physiology in Drosophila melanogaster: = Genetische Analyse sensorischer und motoneuronaler Physiologie in Drosophila melanogaster

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Bibliographische Detailangaben
1. Verfasser:	Scholz, Nicole 1984- (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Würzburg 2015
Schlagworte:	Taufliege G-Protein gekoppelter Rezeptor Synapse synaptic vesicle tethering active zone Complexin Bruchpilot Adhesion-GPCR Latrophilin mechanosensing Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis Volltext Inhaltsverzeichnis
Beschreibung:	veröffentlicht 2017
Beschreibung:	192 Blätter Illustrationen, Diagramme 30 cm

Internformat

MARC


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Datensatz im Suchindex

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adam_text	CONTENTS 1. SUMMARY........................................................................................................................ 2 1.1. PART I BRUCHPILOT AND COMPLEXIN INTERACT TO REGULATE SYNAPTIC VESICLE TETHERING TO THE ACTIVE ZONE CYTOMATRIX.......................................................................... 2 1.2. PART II THE ADHESION-GPCR LATROPHILIN/CIRL SHAPES MECHANOSENSATION ......... 3 2. ZUSAMMENFASSUNG......................................................................................................... 4 2.1. TEIL I DIE INTERAKTION VON BRUCHPILOT UND COMPLEXIN VERMITTELT DIE ANBINDUNG VON SYNAPTISCHEN VESIKELN AN DIE ZYTOMATRIX DER AKTIVEN ZONE ............... 4 2.2. TEIL II ADHAESIONS-GPCR LATROPHILIN/CIRL MODULIERT DIE WAHRNEHMUNG MECHANISCHER REIZE.................................................................................... 5 3. BACKGROUND.................................................................................................................... 6 P A R TI 4. INTRODUCTION................................................................................................................... 9 4.1. THE CONCEPT OF NEUROTRANSMISSION AT CHEMICAL SYNAPSES ........................................ 9 4.2. SYNAPTIC VESICLES.............................................................. 10 4.2.1. SV POOLS............................................................................................................ 12 4.2.2. SV TRANSPORT...................................................................................................... 14 4.2.3. THE SV MARKER SYNAPTOTAGMIN ........................................................................ 15 4.3. THE PRESYNAPTIC ACTIVE ZONE .................................................................................... 16 4.3.1. ULTRASTRUCTURE.................................................................................................... 16 4.3.2. MOLECULAR LAYOUT............................................................................................... 18 4.3.3. BRUCHPILOT.........................................................................................................21 4.3.4. COMPLEXIN.........................................................................................................26 4.4. SCOPE OF THIS STUDY........................................................................................... . .... 31 5. RESULTS ..........................................................................................................................33 5.1. EXPRESSION PATTERN OF MEMBRANE-ATTACHED GFP AT THE NM J .................................. 33 5.2. MBRPC TIP CO-LOCALIZES WITH 8V S ............. ................................................................ 34 5.3. EXPRESSION OF MOBILE BRPC TIP IN MOTONEURONS IMPAIRS SYNAPTIC FUNCTION ............. 35 5.4. BRPCTERM IS SUFFICIENT TO TETHER SVS TO ECTOPIC SITES OF THE MOTONEURON ................ 37 5.5. SCREEN FOR BRP INTERACTORS.....................................................................................44 5.6. CPX MEDIATES SV TETHERING TO BRP.......................................................................45 5.6.1. CPX AND BRP INTERACT GENETICALLY........................................................................ 47 5.6.2. BRP AND CPX TETHER SVS TO THE AZ SCAFFOLD................................................... 49 5.6.3. BRP AND CPX FUNCTION TO PREVENT SYNAPTIC DEPRESSION ................................... 51 6. DISCUSSION..................................................................................................................... 53 6.1. ACCUMULATION OF BRP BAIT VARIANTS....................................................................... 53 6.2. A BRP PEPTIDE INDUCES SYNAPTIC SHORT-TERM DEPRESSION AND ALTERS LARVAL LOCOMOTION.............................................................................................................. 55 6.3. ASSOCIATION OF SVS WITH BRP BAIT VARIANTS ........................................................... 56 6.4. ABSENCE OF CPX FROM SVS ABOLISHED ASSOCIATION OF SVS WITH BRPC LONG ............. 57 6.5. SV DETACHED CPX FORMS AGGLOMERATIONS DISTANT FROM AZS .................................. 58 6.6. CPX AND BRP EXERT THEIR FUNCTIONS IN A COMMON SIGNALING CASCADE ..................... 58 6.7. BRP AND CPX PREVENT SYNAPTIC SHORT-TERM DEPRESSION .......................................... 60 PART II 7. INTRODUCTION................................................................................................................. 65 7.1. ADHESION-CLASS G-PROTEINE COUPLED RECEPTORS ....................................................... 65 7.2. LATROPHILIN/COR/ A PROTOTYPIC ADHESION-GPCR MEMBER ..................................... 68 7.3. STRUCTURAL FEATURES OF LATROPHILIN............................................................................ 68 7.4. FUNCTIONAL FEATURES OF LATROPHILIN......................................................................... 72 7.5. LATROPHILINS IN MAMMALS, C. ELEGANS AND DROSOPHILA ........................................... 74 7.6. THE ONEROUS SEARCH FOR ENDOGENOUS LIGANDS OF LATROPHILIN ................................... 77 7.7. MECHANOSENSATION................................................................................................... 78 7.8. SCOPE OF THIS STUDY................................................................................................. 83 8. RESULTS.......................................................................................................................... 84 8.1. GENERATION OF DCIRL NULL ALLELE - DCIRLKO................................................................ 84 8.2. GENOMIC ENGINEERING OF DCIRL TOOLKIT..................................................................... 85 8.3. NEURONAL EXPRESSION PATTERN OF DCIRL IN LARVAL AND ADULT STAGES ......................... 87 8.4. DCIRLK0 LARVAE DISPLAY CURTAILED CRAWLING DISTANCES ............................................... 89 8.5. DCIRL PROMOTES ELEVATION OF POSTSYNAPTIC DISCS-LARGE ............................................ 91 8.6. DCIRL HAS NO IMPACT ON PRESYNAPTIC COMPONENTS OF THE LARVAL NMJ ............... . ......93 8.7. DCIRL FUNCTIONS IN PERIPHERAL SENSORY CHORDOTONAL NEURONS .................................... 97 8.8. DCIRL IS EXPENDABLE FOR PROTEIN DECOR AND STRUCTURAL INTEGRITY OF CHORDOTONAL ORGANS.................................................................................................. 99 8.9. DCIRL REGULATES RESPONSIVENESS OF CHORDOTONAL NEURONS TO MECHANICAL STRAIN ..... 101 8.10. DCIRL GENETICALLY INTERACTS WITH CONSTITUENTS OF THE MECHANOTRANSDUCTION COMPLEX................................................................................................................103 8.11. CZS-REGULATORY ELEMENTS NECESSARY FOR SPECIALIZATION OF CHORDOTONAL CILIA ARE PRESENT IN THE DCIRL PROMOTOR.................. 105 9. DISCUSSION................................................................................................................... 108 9.1. INVESTIGATION OF DCIRL *S IN VIVO FUNCTION ............................................................... 108 9.1.1. DCIRLKO ANIMALS DEVELOP NORMALLY AND STRUCTURAL INTEGRITY OF THE NERVOUS SYSTEM IS PRESERVED..........................................................................................108 9.1.2. EXPRESSION PROFILE OF DCIRL IN LARVAL AND ADULT STAGE ................................... 109 9.1.3. REMOVAL OF DCIRL DISRUPTS LARVAL LOCOMOTION ................................................. 114 9.1.4. DCIRL IS REQUIRED FOR THE PERCEPTION OF MECHANICAL STIMULI THROUGH CHORDOTONAL SENSORY NEURONS .......................................................................... 116 9.1.5. A NOVEL ROLE FOR ADHESION-GPCR AS METABOTROPIC MECHANOSENSORS ............. 119 10. GENERAL MATERIAL & METHODS ................................................................................... 122 10.1. MOLECULAR BIOLOGY................................................................................................122 10.1.1. MATERIALS........................................................................................................122 10.1.2. TRANSGENE ENGINEERING .................................................................................. 122 10.2. DROSOPHILA MELANOGASTER ................................................................................... 124 10.2.1. FLY CULTIVATION............................................................................................... 124 10.2.2. TRANSGENESIS .................................................................................................. 125 10.2.3. FLY GENETICS....................................................................................................125 10.2.4. ISOLATION AND PURIFICATION OF GENOMIC DNA ................................................. 127 10.3. CELL CULTURE...................................................................................... 127 10.4. IMMUNOHISTOCHEMISTRY ....................................................................................... 128 10.4.1. MATERIALS....................................................................................................... 128 10.4.2. PREPARATION OF LARVAL BODY WALL MUSCLES ....................................................... 128 10.4.3. PREPARATION OF WHOLE-MOUNT BRAINS FROM DROSOPHILA LARVAE AND ADULT FLIES....................................................................................................... 129 10.4.4. FIXATION AND STAINING PROCEDURES .................................................................. 129 10.4.4.1. LARVAL BODY WALL MUSCLES ........................................................................... 129 10.4.4.2. LARVAL PENTASCOLOPIDIAL ORGAN .................................................................... 130 10.4.4.3. LARVAL AND ADULT BRAIN SPECIMEN ................................................................ 130 10.4.5. PREPARATION AND CRYOSECTIONING OF ADULT DROSOPHILA HEADS .......................... 130 10.4.6. FIXATION AND STAINING PROCEDURES OF CRYOSECTIONS ......................................... 131 10.5. IMAGING................................................................................................................132 10.5.1. CONFOCAL MICROSCOPY .................................................................................... 132 10.5.2. IMAGE PROCESSING AND QUANTIFICATION PROCEDURES .......................................... 132 10.5.3. QUANTIFICATION OF KURZSCHLUSS .............................................................. 132 10.6. ELECTRON MICROSCOPY............................................................................................133 10.6.1. FIXATION, CONTRASTING AND EMBEDDING PROCEDURE ........................................... 133 10.6.2. ULTRA-THIN SECTIONING AND CONTRASTING ............................................................ 133 10.6.3. IMAGE ACQUISITION AND IMAGE ANALYSIS...........................................................134 10.7. BEHAVIORAL ASSAYS.................................................................................................134 10.7.1. SOUND-INDUCED STARTLE RESPONSE PARADIGM.....................................................134 10.7.2. LARVAL LOCOMOTION PARADIGM..........................................................................135 10.8. ELECTROPHYSIOLOGICAL ANALYSIS..............................................................................135 10.9. DATA ANALYSIS........................................................................................................136 11 . SUPPLEMENTAL INFORMATION........................................................................................ 137 12 . REFERENCES.................................................................................................................. 147 13 . FIGURES AND TABLES...................................................................................................... 182 14 . ABBREVIATIONS..............................................................................................................185 15 . APPENDIX.................................................................................................................... 190 15.1. PUBLICATIONS..........................................................................................................190 15.2. CURRICULUM VITAE................................................................................................ 191
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spelling	Scholz, Nicole 1984- Verfasser (DE-588)1148797750 aut Genetic analyses of sensory and motoneuron physiology in Drosophila melanogaster = Genetische Analyse sensorischer und motoneuronaler Physiologie in Drosophila melanogaster vorgelegt von Nicole Scholz aus Mühlhausen (Thür.) Genetische Analyse sensorischer und motoneuronaler Physiologie in Drosophila melanogaster Würzburg 2015 192 Blätter Illustrationen, Diagramme 30 cm txt rdacontent n rdamedia nc rdacarrier veröffentlicht 2017 Dissertation Julius-Maximilians-Universität Würzburg 2015 Zusammenfassung in deutscher und englischer Sprache Taufliege (DE-588)4078168-9 gnd rswk-swf G-Protein gekoppelter Rezeptor (DE-588)7723480-7 gnd rswk-swf Synapse (DE-588)4184224-8 gnd rswk-swf synaptic vesicle tethering active zone Complexin Bruchpilot Adhesion-GPCR Latrophilin mechanosensing (DE-588)4113937-9 Hochschulschrift gnd-content Taufliege (DE-588)4078168-9 s G-Protein gekoppelter Rezeptor (DE-588)7723480-7 s Synapse (DE-588)4184224-8 s DE-604 Erscheint auch als Online-Ausgabe urn:nbn:de:bvb:20-opus-123249 Scholz, Nicole, 1984- Genetic analyses of sensory and motoneuron physiology in Drosophila melanogaster Würzburg : Universität Würzburg, 2017 Online-Ressource B:DE-101 application/pdf http://d-nb.info/1148797807/04 Inhaltsverzeichnis https://nbn-resolving.org/urn:nbn:de:bvb:20-opus-123249 Resolving-System kostenfrei Volltext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030277827&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Scholz, Nicole 1984- Genetic analyses of sensory and motoneuron physiology in Drosophila melanogaster = Genetische Analyse sensorischer und motoneuronaler Physiologie in Drosophila melanogaster Taufliege (DE-588)4078168-9 gnd G-Protein gekoppelter Rezeptor (DE-588)7723480-7 gnd Synapse (DE-588)4184224-8 gnd
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title	Genetic analyses of sensory and motoneuron physiology in Drosophila melanogaster = Genetische Analyse sensorischer und motoneuronaler Physiologie in Drosophila melanogaster
title_alt	Genetische Analyse sensorischer und motoneuronaler Physiologie in Drosophila melanogaster
title_auth	Genetic analyses of sensory and motoneuron physiology in Drosophila melanogaster = Genetische Analyse sensorischer und motoneuronaler Physiologie in Drosophila melanogaster
title_exact_search	Genetic analyses of sensory and motoneuron physiology in Drosophila melanogaster = Genetische Analyse sensorischer und motoneuronaler Physiologie in Drosophila melanogaster
title_full	Genetic analyses of sensory and motoneuron physiology in Drosophila melanogaster = Genetische Analyse sensorischer und motoneuronaler Physiologie in Drosophila melanogaster vorgelegt von Nicole Scholz aus Mühlhausen (Thür.)
title_fullStr	Genetic analyses of sensory and motoneuron physiology in Drosophila melanogaster = Genetische Analyse sensorischer und motoneuronaler Physiologie in Drosophila melanogaster vorgelegt von Nicole Scholz aus Mühlhausen (Thür.)
title_full_unstemmed	Genetic analyses of sensory and motoneuron physiology in Drosophila melanogaster = Genetische Analyse sensorischer und motoneuronaler Physiologie in Drosophila melanogaster vorgelegt von Nicole Scholz aus Mühlhausen (Thür.)
title_short	Genetic analyses of sensory and motoneuron physiology in Drosophila melanogaster
title_sort	genetic analyses of sensory and motoneuron physiology in drosophila melanogaster genetische analyse sensorischer und motoneuronaler physiologie in drosophila melanogaster
title_sub	= Genetische Analyse sensorischer und motoneuronaler Physiologie in Drosophila melanogaster
topic	Taufliege (DE-588)4078168-9 gnd G-Protein gekoppelter Rezeptor (DE-588)7723480-7 gnd Synapse (DE-588)4184224-8 gnd
topic_facet	Taufliege G-Protein gekoppelter Rezeptor Synapse Hochschulschrift
url	http://d-nb.info/1148797807/04 https://nbn-resolving.org/urn:nbn:de:bvb:20-opus-123249 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030277827&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT scholznicole geneticanalysesofsensoryandmotoneuronphysiologyindrosophilamelanogastergenetischeanalysesensorischerundmotoneuronalerphysiologieindrosophilamelanogaster AT scholznicole genetischeanalysesensorischerundmotoneuronalerphysiologieindrosophilamelanogaster

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