Verfügbarkeit: Structural and functional analyses of microtubule nucleation

Structural and functional analyses of microtubule nucleation:

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1. Verfasser:	Liu, Peng 1988- (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Heidelberg 2020
Schlagworte:	Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	IX, 108 Seiten Illustrationen 30 cm

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adam_text	TABLE OF CONTENTS SUMMARY .................................................................................................................... IV ZUSAMMENFASSUNG ...................................................................................................... V ABBREVIATIONS ............................................................................................................ VII 1. INTRODUCTION ............................................................................................................ 1 1.1 CYTOSKELETON ...................................................................................................... 1 1.2 MICROTUBULES ...................................................................................................... 2 1.2.1 THE DISCOVERY OF MICROTUBULES..................................................................... 2 1.2.2 THE CHARACTERISTICS OF MICROTUBULES ............................................................. 2 1.2.3 MICROTUBULE DYNAMICS ................................................................................. 2 1.3 MAPS ................................................................................................................. 4 1.4 TUBULIN POST-TRANSLATIONAL MODIFICATIONS ............................................................. 5 1.5 MTOCS .............................................................................................................. 5 1.6 MICROTUBULE NUCLEATION AND RELATED PROTEINS ..................................................... 6 1.6.1 Y-TUBULIN ....................................................................................................... 7 1.6.2 Y-TUCS ......................................................................................................... 8 1.6.3 Y-TURC-ASSOCIATED PROTEINS ........................................................................ 9 1.6.3.1 NEDD1 ............................................................................................... 10 1.6.3.2 CDK5RAP2 ......................................................................................... 11 1.6.3.3 NME7.................................................................................................. 13 1.6.3.4 MOZART 1 .......................................................................................... 14 1.6.3.5 MOZART2 .......................................................................................... 14 1.6.3.6 RANGTP AND NUPS ............................................................................ 16 1.6.3.7 TPX2 ................................................................................................... 17 1.6.3.8 THE AUGMIN COMPLEX .......................................................................... 19 1.6.3.9 BRANCHING MICROTUBULE NUCLEATION........................................................ 20 1.6.3.10 XMAP215 ......................................................................................... 22 1.6.3.11 MICROTUBULES AT THE GOLGI APPARATUS ................................................ 23 1.7 STRUCTURAL ANALYSES OF Y-TUCS .......................................................................... 24 1.7.1 THE STRUCTURE OF S. CEREVISIAE Y-TUSC ...................................................... 24 1.7.2 THE STRUCTURE OF S. CEREVISIAE Y-TUSC RING............................................... 25 1.7.3 Y-TUCS IN S. POMBE .................................................................................. 26 1.7.4 THE STRUCTURE OF CANDIDA ALBICANS Y-TUSC ................................................ 27 1.7.5 STRUCTURAL ANALYSIS OF D. MELANOGASTER Y-TURC ....................................... 28 1.7.6 STRUCTURAL ANALYSES OF Y-TURCS FROM VERTEBRATES ..................................... 29 1.7.7 Y-TUC-CAPPED MICROTUBULES ...................................................................... 31 1.8 STOICHIOMETRIES OF VERTEBRATE Y-TURC COMPONENTS ........................................ 32 1.9 MICROTUBULE NUCLEATING MODELS ........................................................................ 32 1.10 KEY MATERIALS AND TOOLS IN THIS STUDY .............................................................. 33 1.10.1 X. LAEVIS EGG EXTRACTS .............................................................................. 33 1.10.2 ELECTRON MICROSCOPY ................................................................................ 35 1.11 AIM OF THIS STUDY ........................................................................................... 36 1.12 BIOLOGICAL AND TRANSLATIONAL SIGNIFICANCE ....................................................... 36 2. RESULTS ................................................................................................................. 38 2.1. Y-TURC PURIFICATION FROM X. LAEVIS EGG EXTRACTS ............................................. 38 2.2 QUALITY CONTROL OF PURIFIED Y-TURCS .................... 39 2.2.1 MASS SPECTROMETRY ANALYSIS OF PURIFIED Y-TURCS ..................................... 39 2.2.2 ABANDUNCE OF Y-TURC COMPONENTS ......................................................... 41 2.2.3 NEGATIVE STAIN EM ANALYSIS OF PURIFIED Y-TURCS ...................................... 42 2.2.4 PURIFIED Y-TURCS SHOW BASAL NUCLEATION ACTIVITY ...................................... 43 2.2.5 FURTHER PURIFICATION OF THE Y-TURCS WITH GEL FILTRATION CHROMATOGRAPHY.... 44 2.2.6 CROSS-LINKING OF PURIFIED Y-TURCS ............................................................. 45 2.2.7 FURTHER PURIFICATION OF THE Y-TURCS WITH SUCROSE GRADIENT ....................... 46 2.3 CRYO-EM ANALYSES OF THE Y-TURC ................................................................... 47 2.3.1 STARTING MODELS OF THE Y-TURC ................................................................ 47 2.3.2 THE Y-TURC CRYO-EM MODEL WITH AN ANISOTROPIC RESOLUTION ..................... 48 2.3.3 GRIDS OPTIMIZATION FOR CRYO-EM ANALYSIS ................................................... 49 2.3.4 CRYO-EM STRUCTURE OF THE Y-TURC ............................................................. 51 2.4 FUNCTIONAL ANALYSES OF PURIFIED Y-TURCS ........................................................ 53 2.4.1 BIOCHEMICAL ANALYSIS OF THE ACTIN IN THE Y-TURC ...................................... 53 2.4.2 FUNCTIONAL ANALYSIS OF GCP6-ID0 ............................................................. 53 2.4.2.1 DOMAIN ORGANIZATION OF GCP6-ID0 .................................................. 54 2 4.2.2 GCP6-ID0 BINDS TO GCP2 AND GCP5 ................................................ 56 2.5 ASSEMBLY OF THE Y-TURC ................................................................................. 57 2.6 THE MAKING OF * ACTIVE * Y-TURCS ..................................................................... 59 2.6.1 MISMATCHES BETWEEN THE Y-TURC AND MICROTUBULES ................................ 59 2.6.2 CEP215 DOES NOT AFFECT THE CONFORMATION OF PURIFIED Y-TURCS ............... 59 2.6.3 CEP215 REQUIRES CO-FACTORS TO PROMOTE MICROTUBULE NUCLEATION ............. 60 2.7 MOZART 1 IS INDISPENSABLE FOR THE ACTIVITY Y-TURC ........................................ 62 2.8 NEDD1 DEPLETION DOES NOT AFFECT THE INTEGRITY AND ACTIVITY OF Y-TURC ........... 63 3. DISCUSSION ........................................................................................................... 65 3.1 THE Y-TURC CRYO-EM STRUCTURE ...................................................................... 65 3.1.1 LOCATION OF GCP4-5-4-6 WITHIN THE Y-TURC .............................................. 65 3.1.2 POTENTIAL FUNCTIONS OF GCP4 AND GCP5 .................................................. 65 3.1.3 GCP6-ID0: * SNOW WHITE AND THE SEVEN DWARFS * ..................................... 66 3.1.4 TO * LOCK * THE Y-TURC ................................................................................ 67 3.2 ASSEMBLY PROCESS OF THE Y-TURC ................................................................... 67 3.3 ACTIN IN THE Y-TURC........................................................................................ 68 3.4 Y-TUBULIN: A * GTPASE * ? ................................................................................... 69 3.5 Y-TUBULIN AS THE CENTRAL PLAYER IN MICROTUBULE NUCLEATION ................................ 69 3.6 Y-TURC-ASSOCIATED FACTORS ............................................................................. 70 3.6.1 MISSING FACTORS IN THE CRYO-EM RECONSTRUCTION......................................... 70 3.6.2 MISSING FACTORS IN MASS SPECTROMETRY: * TO BIND OR NOT TO BIND, THIS IS A QUESTION * ........................................................................................................... 70 II 3.6.3 CDK5RAP2 IN X. LAEVIS EGG EXTRACTS ....................................................... 71 3.6.4 TWO CLASSES OF NEDD1 ............................................................................. 71 3.7 ADDITIONAL FUNCTIONS OF Y-TURC ........................................................................ 72 3.8 HYPOTHESIS FOR MICROTUBULE NUCLEATION ............................................................. 72 3.9 MICROTUBULE NUCLEATION: S. CEREVISIAE VS. VERTEBRATES ..................................... 72 3.10 CLOSING REMARKS AND PERSPECTIVES ................................................................. 73 4. MATERIALS AND METHODS .......................................................................................... 74 4.1 PLASMIDS .......................................................................................................... 74 4.2 ANTIBODIES ........................................................................................................ 74 4.3 Y-TURC PURIFICATION .......................................................................................... 76 4.4 Y-TURC SALT TREATMENT ..................................................................................... 77 4.5 IMMUNOPRECIPITATION ........................................................................................ 78 4.6 SILVER STAINING .................................................................................................. 78 4.7 IMMUNOBLOTTING ................................................................................................ 79 4.8 IN VITRO MICROTUBULE NUCLEATION ......................................................................... 79 4.9 DNASEL INHIBITION ASSAY ................................................................................... 80 4.10 SUCROSE GRADIENT ............................................................................................ 80 4.11 PROTEIN PURIFICATION......................................................................................... 81 4.12 PULL-DOWN ASSAY ............................................................................................. 81 4.13 CEP215N ACTIVITY ASSAY IN X. LAEVIS EGG EXTRACTS ......................................... 82 4.14 NEGATIVE STAIN EM.......................................................................................... 82 4.15 PLUNGE FREEZING .............................................................................................. 82 4.16 MICROTUBULE REGROWTH ASSAY ........................................................................... 82 5. PUBLICATIONS AND POSTER PRESENTATIONS................................................................... 84 6. REFERENCES ............................................................................................................ 85 7. ACKNOWLEDGMENT ................................................................................................. 104 ERKLARUNG ............................ 108 III
adam_txt	TABLE OF CONTENTS SUMMARY . IV ZUSAMMENFASSUNG . V ABBREVIATIONS . VII 1. INTRODUCTION . 1 1.1 CYTOSKELETON . 1 1.2 MICROTUBULES . 2 1.2.1 THE DISCOVERY OF MICROTUBULES. 2 1.2.2 THE CHARACTERISTICS OF MICROTUBULES . 2 1.2.3 MICROTUBULE DYNAMICS . 2 1.3 MAPS . 4 1.4 TUBULIN POST-TRANSLATIONAL MODIFICATIONS . 5 1.5 MTOCS . 5 1.6 MICROTUBULE NUCLEATION AND RELATED PROTEINS . 6 1.6.1 Y-TUBULIN . 7 1.6.2 Y-TUCS . 8 1.6.3 Y-TURC-ASSOCIATED PROTEINS . 9 1.6.3.1 NEDD1 . 10 1.6.3.2 CDK5RAP2 . 11 1.6.3.3 NME7. 13 1.6.3.4 MOZART 1 . 14 1.6.3.5 MOZART2 . 14 1.6.3.6 RANGTP AND NUPS . 16 1.6.3.7 TPX2 . 17 1.6.3.8 THE AUGMIN COMPLEX . 19 1.6.3.9 BRANCHING MICROTUBULE NUCLEATION. 20 1.6.3.10 XMAP215 . 22 1.6.3.11 MICROTUBULES AT THE GOLGI APPARATUS . 23 1.7 STRUCTURAL ANALYSES OF Y-TUCS . 24 1.7.1 THE STRUCTURE OF S. CEREVISIAE Y-TUSC . 24 1.7.2 THE STRUCTURE OF S. CEREVISIAE Y-TUSC RING. 25 1.7.3 Y-TUCS IN S. POMBE . 26 1.7.4 THE STRUCTURE OF CANDIDA ALBICANS Y-TUSC . 27 1.7.5 STRUCTURAL ANALYSIS OF D. MELANOGASTER Y-TURC . 28 1.7.6 STRUCTURAL ANALYSES OF Y-TURCS FROM VERTEBRATES . 29 1.7.7 Y-TUC-CAPPED MICROTUBULES . 31 1.8 STOICHIOMETRIES OF VERTEBRATE Y-TURC COMPONENTS . 32 1.9 MICROTUBULE NUCLEATING MODELS . 32 1.10 KEY MATERIALS AND TOOLS IN THIS STUDY . 33 1.10.1 X. LAEVIS EGG EXTRACTS . 33 1.10.2 ELECTRON MICROSCOPY . 35 1.11 AIM OF THIS STUDY . 36 1.12 BIOLOGICAL AND TRANSLATIONAL SIGNIFICANCE . 36 2. RESULTS . 38 2.1. Y-TURC PURIFICATION FROM X. LAEVIS EGG EXTRACTS . 38 2.2 QUALITY CONTROL OF PURIFIED Y-TURCS . 39 2.2.1 MASS SPECTROMETRY ANALYSIS OF PURIFIED Y-TURCS . 39 2.2.2 ABANDUNCE OF Y-TURC COMPONENTS . 41 2.2.3 NEGATIVE STAIN EM ANALYSIS OF PURIFIED Y-TURCS . 42 2.2.4 PURIFIED Y-TURCS SHOW BASAL NUCLEATION ACTIVITY . 43 2.2.5 FURTHER PURIFICATION OF THE Y-TURCS WITH GEL FILTRATION CHROMATOGRAPHY. 44 2.2.6 CROSS-LINKING OF PURIFIED Y-TURCS . 45 2.2.7 FURTHER PURIFICATION OF THE Y-TURCS WITH SUCROSE GRADIENT . 46 2.3 CRYO-EM ANALYSES OF THE Y-TURC . 47 2.3.1 STARTING MODELS OF THE Y-TURC . 47 2.3.2 THE Y-TURC CRYO-EM MODEL WITH AN ANISOTROPIC RESOLUTION . 48 2.3.3 GRIDS OPTIMIZATION FOR CRYO-EM ANALYSIS . 49 2.3.4 CRYO-EM STRUCTURE OF THE Y-TURC . 51 2.4 FUNCTIONAL ANALYSES OF PURIFIED Y-TURCS . 53 2.4.1 BIOCHEMICAL ANALYSIS OF THE ACTIN IN THE Y-TURC . 53 2.4.2 FUNCTIONAL ANALYSIS OF GCP6-ID0 . 53 2.4.2.1 DOMAIN ORGANIZATION OF GCP6-ID0 . 54 2 4.2.2 GCP6-ID0 BINDS TO GCP2 AND GCP5 . 56 2.5 ASSEMBLY OF THE Y-TURC . 57 2.6 THE MAKING OF * ACTIVE * Y-TURCS . 59 2.6.1 MISMATCHES BETWEEN THE Y-TURC AND MICROTUBULES . 59 2.6.2 CEP215 DOES NOT AFFECT THE CONFORMATION OF PURIFIED Y-TURCS . 59 2.6.3 CEP215 REQUIRES CO-FACTORS TO PROMOTE MICROTUBULE NUCLEATION . 60 2.7 MOZART 1 IS INDISPENSABLE FOR THE ACTIVITY Y-TURC . 62 2.8 NEDD1 DEPLETION DOES NOT AFFECT THE INTEGRITY AND ACTIVITY OF Y-TURC . 63 3. DISCUSSION . 65 3.1 THE Y-TURC CRYO-EM STRUCTURE . 65 3.1.1 LOCATION OF GCP4-5-4-6 WITHIN THE Y-TURC . 65 3.1.2 POTENTIAL FUNCTIONS OF GCP4 AND GCP5 . 65 3.1.3 GCP6-ID0: * SNOW WHITE AND THE SEVEN DWARFS * . 66 3.1.4 TO * LOCK * THE Y-TURC . 67 3.2 ASSEMBLY PROCESS OF THE Y-TURC . 67 3.3 ACTIN IN THE Y-TURC. 68 3.4 Y-TUBULIN: A * GTPASE * ? . 69 3.5 Y-TUBULIN AS THE CENTRAL PLAYER IN MICROTUBULE NUCLEATION . 69 3.6 Y-TURC-ASSOCIATED FACTORS . 70 3.6.1 MISSING FACTORS IN THE CRYO-EM RECONSTRUCTION. 70 3.6.2 MISSING FACTORS IN MASS SPECTROMETRY: * TO BIND OR NOT TO BIND, THIS IS A QUESTION * . 70 II 3.6.3 CDK5RAP2 IN X. LAEVIS EGG EXTRACTS . 71 3.6.4 TWO CLASSES OF NEDD1 . 71 3.7 ADDITIONAL FUNCTIONS OF Y-TURC . 72 3.8 HYPOTHESIS FOR MICROTUBULE NUCLEATION . 72 3.9 MICROTUBULE NUCLEATION: S. CEREVISIAE VS. VERTEBRATES . 72 3.10 CLOSING REMARKS AND PERSPECTIVES . 73 4. MATERIALS AND METHODS . 74 4.1 PLASMIDS . 74 4.2 ANTIBODIES . 74 4.3 Y-TURC PURIFICATION . 76 4.4 Y-TURC SALT TREATMENT . 77 4.5 IMMUNOPRECIPITATION . 78 4.6 SILVER STAINING . 78 4.7 IMMUNOBLOTTING . 79 4.8 IN VITRO MICROTUBULE NUCLEATION . 79 4.9 DNASEL INHIBITION ASSAY . 80 4.10 SUCROSE GRADIENT . 80 4.11 PROTEIN PURIFICATION. 81 4.12 PULL-DOWN ASSAY . 81 4.13 CEP215N ACTIVITY ASSAY IN X. LAEVIS EGG EXTRACTS . 82 4.14 NEGATIVE STAIN EM. 82 4.15 PLUNGE FREEZING . 82 4.16 MICROTUBULE REGROWTH ASSAY . 82 5. PUBLICATIONS AND POSTER PRESENTATIONS. 84 6. REFERENCES . 85 7. ACKNOWLEDGMENT . 104 ERKLARUNG . 108 III
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spelling	Liu, Peng 1988- Verfasser (DE-588)1196704945 aut Structural and functional analyses of microtubule nucleation Peng Liu Heidelberg 2020 IX, 108 Seiten Illustrationen 30 cm txt rdacontent n rdamedia nc rdacarrier Dissertation Universität Heidelberg 2020 (DE-588)4113937-9 Hochschulschrift gnd-content B:DE-101 application/pdf https://d-nb.info/1217738215/04 Inhaltsverzeichnis DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032404730&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Liu, Peng 1988- Structural and functional analyses of microtubule nucleation
subject_GND	(DE-588)4113937-9
title	Structural and functional analyses of microtubule nucleation
title_auth	Structural and functional analyses of microtubule nucleation
title_exact_search	Structural and functional analyses of microtubule nucleation
title_exact_search_txtP	Structural and functional analyses of microtubule nucleation
title_full	Structural and functional analyses of microtubule nucleation Peng Liu
title_fullStr	Structural and functional analyses of microtubule nucleation Peng Liu
title_full_unstemmed	Structural and functional analyses of microtubule nucleation Peng Liu
title_short	Structural and functional analyses of microtubule nucleation
title_sort	structural and functional analyses of microtubule nucleation
topic_facet	Hochschulschrift
url	https://d-nb.info/1217738215/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032404730&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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