Verfügbarkeit: Structural and in vivo analysis of linear Hedgehog multimerization at the surface of producing cells

Structural and in vivo analysis of linear Hedgehog multimerization at the surface of producing cells:

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Bibliographische Detailangaben
1. Verfasser:	Schürmann, Sabine 1986- (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Münster 2015
Schlagworte:	Zelldifferenzierung Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XIII, 145 Blätter Illustrationen 29 cm

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adam_text	TABLE OF CONTENTS LIST OF FIGURES...................................................................................................................V LIST OF TABLES..................................................................................................................VII LIST OF ABBREVIATIONS......................................................................................................VIII 1 SUMMARY................................................................................................................... 1 2 INTRODUCTION................................................................................................................ 4 2.1 ROLES OF THE HEDGEHOG PROTEIN FAMILY IN DEVELOPMENT AND DISEASE .................. 4 2.2 HEDGEHOG BIOSYNTHESIS.......................................................................................6 2.3 ROLE OF HEDGEHOG LIPID MODIFICATIONS..................................................................7 2.4 STRUCTURAL INSIGHTS INTO THE HEDGEHOG SIGNALING DOMAIN ..................................... 9 2.5 HEDGEHOG RELEASE AND TRANSPORT....................................................................... 13 2.5.1 DISPATCHED-MEDIATED HEDGEHOG 13 2.5.2 MICELLOUS STRUCTURES.................................................................................... 14 2.5.3 LIPOPROTEIN PARTICLES.................................................................................... 15 2.5.4 EXOSOMES................................................................................................... 16 2.5.5 HEDGEHOG TRANSPORT VIA CYTONEMES............................................................16 2.5.6 ADAM-MEDIATED SHEDDING..........................................................................17 2.5.7 SCUBE2-MEDIATED HEDGEHOG SOLUBILIZATION.................................................19 2.6 ROLE OF HEPARAN SULFATE PROTEOGLYCANS IN HEDGEHOG SIGNALING ........................ 20 2.7 HEDGEHOG SIGNALING IN RECEIVING CELLS...............................................................* * 2.8 HEDGEHOG-REGULATED DROSOPHILA WING PATTERNING ......................................... 24 3 MATERIAL.................................................................................................................... 27 3.1 EQUIPMENT AND CONSUMABLES............................................................................27 3.2 CHEMICALS.......................................................................................................... 29 3.3 KITS AND MONONUCLEOTIDES.................................................................................31 3.4 ANTIBODIES.......................................................................................................... 31 3.5 MOLECULAR WEIGHT MARKERS..................................................................................32 3.6 DNA VECTORS....................................................................................................... 32 3.7 OLIGONUCLEOTIDES................................................................................................ 33 3.8 RECOMBINANT DNA............................................................................................. 37 3.9 ORGANISMS AND CELL LINES................................................................................... 39 3.10 SOLUTIONS * BUFFERS AND MEDIA.............................................................................41 3.10.1 MEDIA AND SOLUTIONS FOR BACTERIA................................................................41 3.10.2 MEDIA FOR EUKARYOTIC CELLS............................................................................42 3.10.3 SOLUTIONS AND BUFFERS FOR THE WORK WITH DNA ............................................. 42 3.10.4 SOLUTIONS FOR DENSITY GRADIENT ULTRACENTRIFUGATION AND TCA PRECIPITATION.... 43 3.10.5 SOLUTIONS FOR SDS-PAGE.............................................................................43 3-10.6 SOLUTIONS FOR WESTERN BLOTTING AND IMMUNODETECTION ................................. 44 3.10.7 SOLUTIONS AND BUFFERS FOR TRANSMISSION ELECTRON MICROSCOPY (**) AND IMMUNOGOLD LABELING.............................................................................................. 45 3.10.8 MEDIA AND SOLUTIONS FOR THE WORK ON DROSOPHILA ....................................... 46 3.11 SOFTWARE............................................................................................................. 47 4 METHODS................................................................................................................... 48 4.1 MOLECULAR BIOLOGICAL AND BIOCHEMICAL METHODS................................................48 4.1.1 TOPO CLONING AND LR RECOMBINATION........................................................48 4.1.2 SITE-DIRECTED MUTAGENESIS...........................................................................49 4.1.3 SEPARATION OF DNA FRAGMENTS VIA AGAROSE GEL ELECTROPHORESIS.................. 49 4.1.4 PURIFICATION OF PCR PRODUCTS FROM AGAROSE GEL .......................................... 49 4.1.5 TRANSFORMATION OF CO * CELLS.....................................................................50 4.1.6 PLASMID EXTRACTION FROM E. COLI....................................................................50 4.1.7 DETERMINATION OF THE DNA CONCENTRATION.....................................................50 4.1.8 DNASEQUENCING......................................................................................... 51 4.1.9 CULTURE OF S2 CELLS....................................................................................... 51 4.1.10 TRANSFECTION OF S2 CELLS AND RECOMBINANT PROTEIN EXPRESSION.......... 52 4.1.11 CULTURE OF BOSC23 CELLS............................................................................... 52 4.1.12 TRANSFECTION OF BOSC23 CELLS AND RECOMBINANT PROTEIN EXPRESSION ... 53 4.1.13 CO-IMMUNOPRECIPITATION.............................................................................. 54 4.1.14 PREPARATION OF DROSOPHILA LARVAL LYSATES......................................................55 4.1.15 OPTIPREP DENSITY GRADIENT ULTRACENTRIFUGATION..............................................55 4.1.16 GEL FILTRATION ANALYSIS ............................................. 56 4.1.17 TCA PROTEIN PRECIPITATION.............................................................................56 4.1.18 PROTEIN AFFINITY PURIFICATION ON HEPARIN-AGAROSE...........................................56 4.1.19 ONE-DIMENSIONAL SDS-PAGE......................................................................57 4.1.20 SEMIDRY WESTERN BLOTTING AND IMMUNODETECTION OF PROTEINS.......... 57 4.1.21 STRIPPING AND REPROBING OF WESTERN BLOTS....................................................58 4.1 22 PREPARATION OF BOSC23 CELLS FOR TRANSMISSION ELECTRON MICROSCOPY (**) AND IMMUNOGOLD LABELING.......................................................................................58 4.2 METHODS FOR THE ANALYSIS OF D 59 4.2.1 FLY STOCK MAINTENANCE AND GENETIC CROSSES...............................................59 4.2.2 GAL4/UAS-TA GETED GENE EXPRESSION IN DROSOPHILA ................................... 60 4.2.3 SITE-SPECIFIC TRANSFORMATION OF DROSOPHILA...................................................61 4.2.4 PREPARATION AND ANALYSIS OF DROSOPHILA WINGS............................................62 4.2.5 OBSERVATION OF DROSOPHILA INDIVIDUALS EMERGING FROM PUPAE..................... 63 4.3 PROTEIN QUANTIFICATION AND STATISTICAL ANALYSIS....................................................63 4.4 BIOINFORMATICS.................................................................................................... 63 5 RESULTS..................................................................................................................... 64 5.1 EFFECTS OF ECTOPIC PALMITOYLATION-DEFICIENT HH EXPRESSION IN VIVO ..................... 64 5.2 IN VIVO ANALYSIS OF NTERMINALLY TRUNCATED HHNP^85S N WING PATTERNING ... 69 5.3 IN VIVO OVEREXPRESSION OF NTERMINALLY TRUNCATED HHNPC85S AT DIFFERENT TEMPERATURES.............................................................................................................. 76 5.4 ANALYSIS OF DROSOPHILA HH SHEDDING USING HA-TAGGED HHNP VARIANTS............. 79 5.5 DROSOPHILA WING MORPHOLOGY UPON OVEREXPRESSJON OF HA-TAGGED HHNP MUTANT PROTEINS...................................................................................................................... 83 5.6 CO-IMMUNOPRECIPITATION FOR THE IN VITRO CONFIRMATION OF INTERMOLECULA * PROTEIN INTERACTIONS BETWEEN WILD TYPE HHNP AND HHNP MUTANT FORMS................. 88 5.7 ANALYSIS OF DROSOPHILA HH SHEDDASE CANDIDATES BY RNAI............................... 90 5.8 ANALYSIS OF THE SHHNP MULTIMER ARCHITECTURE BY IMMUNOELECTRON MICROSCOPY. 92 5.9 SCUBE2-FACILITATED SHH PROCESSING AND RELEASE OF SHH CALCIUM-BINDING- DEFICIENT MUTANT FORMS FROM MAMMALIAN CELLS............................................................94 6 DISCUSSION................................................................................................................98 6.1 SHEDDING OF HHNP IS A PROMISING MODEL FOR HHNP MULTIMER RELEASE COUPLED TO MORPHOGEN BIOACTIVATION............................................................................................ 98 6.2 REPRESSION OF ENDOGENOUS HHNP ACTIVITY BY UNPALMITOYLATED HHNPC85S CAN BE EXPLAINED BY THE * CO-MULTIMERIZATION IN THE POSTERIOR WING DISC COMPARTMENT....... 101 6.3 N-TERMINALLY TRUNCATED HHNPC * SS LACKS BIOACTIVITY DURING DROSOPHILA WING PATTERNING..................................................................................................................104 6.4 N-TERMINAL PROCESSING RATHER THAN N-PALMITOYLATION PER SE DETERMINES HHNP B 0 ACTVTY..................................................................................................................106 6.5 IMPLICATIONS OF MY FINDINGS FOR HH TAGGING....................................................... 108 6.6 C-TERMINAL IN VITRO SHEDDING OF DROSOPHILA HHNPC * 5S * HA................................. 109 6.7 DROSOPHILA HH SHEDDASE CANDIDATES ............................................................... 110 6.8 MECHANISMS OF SCUBE2-DEPENDENT SHH RELEASE..............................................111 6.9 THE LINEAR HH MULTIME STRUCTURE IS CONSISTENT WITH * AND IDEAL FOR HS-DEPENDENT MORPHOGEN TRANSPORT.................................................................................................113 6.10 FURTHER IMPLICATIONS FOR HH SIGNALING............................................................... 116 6.11 THE HH MULTIMER ARRANGEMENT AS SUGGESTED BY WHALEN ET AL. (2013)....119 7 OUTLOOK...................................................................................................................120 8 REFERENCES.............................................................................................................122 9 SUPPLEMENT............................................................................................................140 9.1 SUPPLEMENTAL DATA........................................................................................... 140 9.2 CUITICULUM VITAE...............................................................................................142 9.3 VERSICHERUNGEN ................................................................................................ 144 9.4 DANKSAGUNG.....................................................................................................145
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spelling	Schürmann, Sabine 1986- Verfasser (DE-588)1080977155 aut Structural and in vivo analysis of linear Hedgehog multimerization at the surface of producing cells vorgelegt von Sabine Schürmann Münster 2015 XIII, 145 Blätter Illustrationen 29 cm txt rdacontent n rdamedia nc rdacarrier Dissertation Westfälische Wilhelms-Universität Münster 2015 Zelldifferenzierung (DE-588)4067536-1 gnd rswk-swf (DE-588)4113937-9 Hochschulschrift gnd-content Zelldifferenzierung (DE-588)4067536-1 s DE-604 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028927187&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Schürmann, Sabine 1986- Structural and in vivo analysis of linear Hedgehog multimerization at the surface of producing cells Zelldifferenzierung (DE-588)4067536-1 gnd
subject_GND	(DE-588)4067536-1 (DE-588)4113937-9
title	Structural and in vivo analysis of linear Hedgehog multimerization at the surface of producing cells
title_auth	Structural and in vivo analysis of linear Hedgehog multimerization at the surface of producing cells
title_exact_search	Structural and in vivo analysis of linear Hedgehog multimerization at the surface of producing cells
title_full	Structural and in vivo analysis of linear Hedgehog multimerization at the surface of producing cells vorgelegt von Sabine Schürmann
title_fullStr	Structural and in vivo analysis of linear Hedgehog multimerization at the surface of producing cells vorgelegt von Sabine Schürmann
title_full_unstemmed	Structural and in vivo analysis of linear Hedgehog multimerization at the surface of producing cells vorgelegt von Sabine Schürmann
title_short	Structural and in vivo analysis of linear Hedgehog multimerization at the surface of producing cells
title_sort	structural and in vivo analysis of linear hedgehog multimerization at the surface of producing cells
topic	Zelldifferenzierung (DE-588)4067536-1 gnd
topic_facet	Zelldifferenzierung Hochschulschrift
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028927187&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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