Verfügbarkeit: Auditory corticofugal neurons: Tuning, tonotopy and complex sound processing

Auditory corticofugal neurons: Tuning, tonotopy and complex sound processing:

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Bibliographische Detailangaben
1. Verfasser:	Schmitt, Tatjana 1993- (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Kaiserslautern Technische Universität Kaiserslautern 2021
Schlagworte:	Hörrinde Neurobiologie Lautwahrnehmung Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	VI, 114 Seiten Illustrationen, Diagramme

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Datensatz im Suchindex

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adam_text	I INDEX OF CONTENTS I INDEX OF CONTENTS ........................................................................................................................................ I II SUMMARY .................................................................................................................................................. IV III INDEX OF FIGURES ........................................................................................................................................ V IV INDEX OF TABLES ........................................................................................................................................ VI 1 INTRODUCTION .............................................................................................................................................. 1 1.1 FUNCTIONAL ORGANIZATION OF THE AC .................................................................................................... 1 1.1.1 FREQUENCY TUNING ........................................................................................................................ 1 1.1.2 TONOTOPY IN AC SUBFIELDS ........................................................................................................... 2 1.1.3 FUNCTIONAL ROLE OF AC SUBFIELDS .................................................................................................. 3 1.1.4 NEURONAL NETWORKS IN THE AC .................................................................................................... 5 1.2 THE AUDITORY CORTICOFUGAL SYSTEM ..................................................................................................... 6 1.2.1 MORPHOLOGICAL AND ELECTROPHYSIOLOGICAL DIFFERENCES BETWEEN CORTICOFUGAL AND CORTICOCORTICAL NEURONS IN L5 .............................................................................................................. 7 1.2.2 CC PATHWAYS ............................................................................................................................... 8 1.2.3 CORTICO-CN PATHWAY .................................................................................................................. 9 1.3 AIMS OF THE STUDY ............................................................................................................................ 10 2 MATERIAL AND METHODS ............................................................................................................................ 11 2.1 ANIMALS ............................................................................................................................................ 11 2.2 STEREOTACTIC INJECTIONS .................................................................................................................... 11 2.2.1 VIRAL VECTORS .............................................................................................................................. 11 2.2.2 GENERAL INJECTION PROCEDURE ................................................................................................... 12 2.2.3 AC INJECTION ............................................................................................................................... 13 2.2.4 AUDITORY BRAINSTEM INJECTION ................................................................................................... 14 2.3 WINDOW IMPLANTATION .................................................................................................................... 15 2.4 TRANSCARDIAL PERFUSION AND PREPARATION OF HISTOLOGICAL BRAIN SLICES ............................................ 15 2.5 PREPARATION OF ACUTE BRAIN SLICES ................................................................................................... 16 2.6 MICROSCOPY ...................................................................................................................................... 17 2.7 PATCH-CLAMP SETUP AND ELECTROPHYSIOLOGICAL RECORDINGS .............................................................. 17 2.8 IN VIVO IMAGING ............................................................................................................................... 18 2.8.1 TWO-PHOTON IMAGING ............................................................................................................... 18 2.8.2 WIDEFIELD IMAGING .................................................................................................................... 18 2.9 ACOUSTIC STIMULATION ....................................................................................................................... 19 2.10 DATA ANALYSIS ................................................................................................................................20 2.10.1 WIDEFIELD ANALYSIS ..................................................................................................................20 2.10.2 TWO-PHOTON ANALYSIS ............................................................................................................. 22 2.11 DATA VISUALIZATION AND STATISTICS .................................................................................................. 26 3 RESULTS .................................................................................................................................................... 27 3.1 ESTABLISHMENT OF VARIOUS EXPERIMENTAL METHODS FOR CHARACTERIZATION OF CORTICOFUGAL NEURONS 27 3.1.1 RETROGRADE LABELLING OF THE MGB CONFIRMS AC AS INJECTION SITE ............................................ 27 3.1.2 OPTOGENETIC ACTIVATION OF CORTICOFUGAL PROJECTIONS ............................................................... 29 3.1.3 IDENTIFYING IC AND CN-PROJECTING NEURONS IN THE AC ........................................................... 33 3.1.4 IDEAL INJECTION DEPTH TO IMAGE ACTIVITY IN AC 15 .................................................................... 35 3.1.5 TWO-PHOTON CA 2 * IMAGING IN AC L5 .........................................................................................37 3.2 DIFFERENT RESPONSE PROPERTIES OF CC AND NON-CC NEURONS UPON PT STIMULATION ......................... 39 3.2.1 CC AND NON-CC NEURONS HAVE COMMON TUNING PROPERTIES .................................................... 41 3.2.2 IN L5, TONOTOPY AXES ON SINGLE-CELL LEVEL CAN ONLY BE IDENTIFIED IN AL ................................... 48 3.2.3 CC NEURONS LACK A LINEAR TONOTOPIC GRADIENT IN AL ................................................................. 51 3.2.4 HETEROGENEITY OF LOCAL BF DISTRIBUTION IN L5 ........................................................................... 52 3.2.5 INFLUENCE OF THE COMPLEXITY OF FREQUENCY TUNING ON THE TONOTOPIC ORGANIZATION ............... 54 3.3 COMPLEX SOUND PROCESSING IN 15 CC AND NON-CC NEURONS ............................................................ 57 3.3.1 CC(2) NEURONS FORM CLUSTERS WITH NON-CC NEURONS, BUT ARE SPATIALLY CLOSER TOGETHER ....... 57 3.3.2 CLUSTER WITH HIGHEST CORRELATION OF THE NEURONS ACTIVITY PATTERNS ARE FOUND IN AL ........... 60 3.3.3 CC(1) NEURONS IN AL FORM WEAKER CLUSTERS COMPARED TO ALL 15 NEURONS ...............................64 4 DISCUSSION ............................................................................................................................................. 70 4.1 TECHNICAL CONSIDERATIONS .......................................................................................................... 71 II 4.1.1 DIFFERENCES OF TWO LIGHT-ACTIVATABLE ION CHANNELS WITH DIFFERENT KINETICS ............................ 71 4.1.2 IMAGING OF CC NEURONS IN DEEP LAYERS OF THE AC ....................................................................71 4.2 CC AND NON-CC NEURONS SHARE COMMON TUNING PROPERTIES .......................................................... 73 4.3 COMPLEXITY TONOTOPY IN L5 .............................................................................................................77 4.3.1 LINEAR TONOTOPIC ORGANIZATION IN L5 IS LIMITED TO AL ..............................................................77 4.3.2 TONOTOPY OF LS CC NEURONS .....................................................................................................79 4.3.3 COMPLEXITY OF FRAS IN LS ......................................................................................................... 81 4.4 INVOLVEMENT OF CC NEURONS DURING COMPLEX SOUND PROCESSING .................................................... 83 4.4.1 INFLUENCES OF THE EXPERIMENTAL APPROACH ............................................................................. 83 4.4.2 CC AND NON-CC NEURONS INTERMINGLE DURING COMPLEX SOUND PROCESSING, BUT DISPLAY DIFFERENT SUBFIELD-DEPENDENT NETWORK FEATURES ............................................................................................ 84 4.4.3 FURTHER EVIDENCE OF A LACKING HIERARCHY IN CLUSTERS CONTAINING ONLY CC NEURONS .................87 4.5 CONCLUDING REMARKS ...................................................................................................................89 4.6 OUTLOOK ........................................................................................................................................90 5 REFERENCES ..............................................................................................................................................91 6 APPENDIX ...............................................................................................................................................104 7 INDEX OF ABBREVIATIONS ..........................................................................................................................109 8 CURRICULUM VITAE ................................................................................................................................... ILL 9 ACKNOWLEDGEMENTS .............................................................................................................................. 113 III
adam_txt	I INDEX OF CONTENTS I INDEX OF CONTENTS . I II SUMMARY . IV III INDEX OF FIGURES . V IV INDEX OF TABLES . VI 1 INTRODUCTION . 1 1.1 FUNCTIONAL ORGANIZATION OF THE AC . 1 1.1.1 FREQUENCY TUNING . 1 1.1.2 TONOTOPY IN AC SUBFIELDS . 2 1.1.3 FUNCTIONAL ROLE OF AC SUBFIELDS . 3 1.1.4 NEURONAL NETWORKS IN THE AC . 5 1.2 THE AUDITORY CORTICOFUGAL SYSTEM . 6 1.2.1 MORPHOLOGICAL AND ELECTROPHYSIOLOGICAL DIFFERENCES BETWEEN CORTICOFUGAL AND CORTICOCORTICAL NEURONS IN L5 . 7 1.2.2 CC PATHWAYS . 8 1.2.3 CORTICO-CN PATHWAY . 9 1.3 AIMS OF THE STUDY . 10 2 MATERIAL AND METHODS . 11 2.1 ANIMALS . 11 2.2 STEREOTACTIC INJECTIONS . 11 2.2.1 VIRAL VECTORS . 11 2.2.2 GENERAL INJECTION PROCEDURE . 12 2.2.3 AC INJECTION . 13 2.2.4 AUDITORY BRAINSTEM INJECTION . 14 2.3 WINDOW IMPLANTATION . 15 2.4 TRANSCARDIAL PERFUSION AND PREPARATION OF HISTOLOGICAL BRAIN SLICES . 15 2.5 PREPARATION OF ACUTE BRAIN SLICES . 16 2.6 MICROSCOPY . 17 2.7 PATCH-CLAMP SETUP AND ELECTROPHYSIOLOGICAL RECORDINGS . 17 2.8 IN VIVO IMAGING . 18 2.8.1 TWO-PHOTON IMAGING . 18 2.8.2 WIDEFIELD IMAGING . 18 2.9 ACOUSTIC STIMULATION . 19 2.10 DATA ANALYSIS .20 2.10.1 WIDEFIELD ANALYSIS .20 2.10.2 TWO-PHOTON ANALYSIS . 22 2.11 DATA VISUALIZATION AND STATISTICS . 26 3 RESULTS . 27 3.1 ESTABLISHMENT OF VARIOUS EXPERIMENTAL METHODS FOR CHARACTERIZATION OF CORTICOFUGAL NEURONS 27 3.1.1 RETROGRADE LABELLING OF THE MGB CONFIRMS AC AS INJECTION SITE . 27 3.1.2 OPTOGENETIC ACTIVATION OF CORTICOFUGAL PROJECTIONS . 29 3.1.3 IDENTIFYING IC AND CN-PROJECTING NEURONS IN THE AC . 33 3.1.4 IDEAL INJECTION DEPTH TO IMAGE ACTIVITY IN AC 15 . 35 3.1.5 TWO-PHOTON CA 2 * IMAGING IN AC L5 .37 3.2 DIFFERENT RESPONSE PROPERTIES OF CC AND NON-CC NEURONS UPON PT STIMULATION . 39 3.2.1 CC AND NON-CC NEURONS HAVE COMMON TUNING PROPERTIES . 41 3.2.2 IN L5, TONOTOPY AXES ON SINGLE-CELL LEVEL CAN ONLY BE IDENTIFIED IN AL . 48 3.2.3 CC NEURONS LACK A LINEAR TONOTOPIC GRADIENT IN AL . 51 3.2.4 HETEROGENEITY OF LOCAL BF DISTRIBUTION IN L5 . 52 3.2.5 INFLUENCE OF THE COMPLEXITY OF FREQUENCY TUNING ON THE TONOTOPIC ORGANIZATION . 54 3.3 COMPLEX SOUND PROCESSING IN 15 CC AND NON-CC NEURONS . 57 3.3.1 CC(2) NEURONS FORM CLUSTERS WITH NON-CC NEURONS, BUT ARE SPATIALLY CLOSER TOGETHER . 57 3.3.2 CLUSTER WITH HIGHEST CORRELATION OF THE NEURONS' ACTIVITY PATTERNS ARE FOUND IN AL . 60 3.3.3 CC(1) NEURONS IN AL FORM WEAKER CLUSTERS COMPARED TO ALL 15 NEURONS .64 4 DISCUSSION . 70 4.1 TECHNICAL CONSIDERATIONS . 71 II 4.1.1 DIFFERENCES OF TWO LIGHT-ACTIVATABLE ION CHANNELS WITH DIFFERENT KINETICS . 71 4.1.2 IMAGING OF CC NEURONS IN DEEP LAYERS OF THE AC .71 4.2 CC AND NON-CC NEURONS SHARE COMMON TUNING PROPERTIES . 73 4.3 COMPLEXITY TONOTOPY IN L5 .77 4.3.1 LINEAR TONOTOPIC ORGANIZATION IN L5 IS LIMITED TO AL .77 4.3.2 TONOTOPY OF LS CC NEURONS .79 4.3.3 COMPLEXITY OF FRAS IN LS . 81 4.4 INVOLVEMENT OF CC NEURONS DURING COMPLEX SOUND PROCESSING . 83 4.4.1 INFLUENCES OF THE EXPERIMENTAL APPROACH . 83 4.4.2 CC AND NON-CC NEURONS INTERMINGLE DURING COMPLEX SOUND PROCESSING, BUT DISPLAY DIFFERENT SUBFIELD-DEPENDENT NETWORK FEATURES . 84 4.4.3 FURTHER EVIDENCE OF A LACKING HIERARCHY IN CLUSTERS CONTAINING ONLY CC NEURONS .87 4.5 CONCLUDING REMARKS .89 4.6 OUTLOOK .90 5 REFERENCES .91 6 APPENDIX .104 7 INDEX OF ABBREVIATIONS .109 8 CURRICULUM VITAE . ILL 9 ACKNOWLEDGEMENTS . 113 III
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spelling	Schmitt, Tatjana 1993- Verfasser (DE-588)1243123729 aut Auditory corticofugal neurons: Tuning, tonotopy and complex sound processing vorgelegt von Tatjana Schmitt Kaiserslautern Technische Universität Kaiserslautern 2021 VI, 114 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Dissertation Universität Kaiserslautern 2021 Hörrinde (DE-588)4192229-3 gnd rswk-swf Neurobiologie (DE-588)4041871-6 gnd rswk-swf Lautwahrnehmung (DE-588)4125741-8 gnd rswk-swf (DE-588)4113937-9 Hochschulschrift gnd-content Neurobiologie (DE-588)4041871-6 s Lautwahrnehmung (DE-588)4125741-8 s Hörrinde (DE-588)4192229-3 s DE-604 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032894848&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Schmitt, Tatjana 1993- Auditory corticofugal neurons: Tuning, tonotopy and complex sound processing Hörrinde (DE-588)4192229-3 gnd Neurobiologie (DE-588)4041871-6 gnd Lautwahrnehmung (DE-588)4125741-8 gnd
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title	Auditory corticofugal neurons: Tuning, tonotopy and complex sound processing
title_auth	Auditory corticofugal neurons: Tuning, tonotopy and complex sound processing
title_exact_search	Auditory corticofugal neurons: Tuning, tonotopy and complex sound processing
title_exact_search_txtP	Auditory corticofugal neurons: Tuning, tonotopy and complex sound processing
title_full	Auditory corticofugal neurons: Tuning, tonotopy and complex sound processing vorgelegt von Tatjana Schmitt
title_fullStr	Auditory corticofugal neurons: Tuning, tonotopy and complex sound processing vorgelegt von Tatjana Schmitt
title_full_unstemmed	Auditory corticofugal neurons: Tuning, tonotopy and complex sound processing vorgelegt von Tatjana Schmitt
title_short	Auditory corticofugal neurons: Tuning, tonotopy and complex sound processing
title_sort	auditory corticofugal neurons tuning tonotopy and complex sound processing
topic	Hörrinde (DE-588)4192229-3 gnd Neurobiologie (DE-588)4041871-6 gnd Lautwahrnehmung (DE-588)4125741-8 gnd
topic_facet	Hörrinde Neurobiologie Lautwahrnehmung Hochschulschrift
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