Verfügbarkeit: Structural insights into multidomain toxins - Mcf1 (P. Iuminescens) and TcdA&TcdB (C. difficile)

Structural insights into multidomain toxins - Mcf1 (P. Iuminescens) and TcdA&TcdB (C. difficile):

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Bibliographische Detailangaben
1. Verfasser:	Hagel, Philine 1989- (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Dortmund [2018?]
Schlagworte:	Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	148 Seiten Illustrationen 21 cm

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100	1		\|a Hagel, Philine \|d 1989- \|e Verfasser \|0 (DE-588)1175005274 \|4 aut
245	1	0	\|a Structural insights into multidomain toxins - Mcf1 (P. Iuminescens) and TcdA&TcdB (C. difficile) \|c submitted 2018 by Philine Nagel
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502			\|b Dissertation \|c Technical University of Dortmund \|d 2018
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adam_text	CONTENT CONTENT............................................................................................................................................................................. 1 I. LIST OF ABBREVIATIONS................................................................................................................................................. 1 1 ABSTRACT / SUMMARY........................................................................................................................................... 4 1.1 ABSTRACT............................................................................................................................................................... 4 1.2 ZUSAMMENFASSUNG............................................................................................................................................. 5 2 INTRODUCTION........................................................................................................................................................6 2.1 PHOTORHABDUS LUMINESCENS.............................................................................................................................6 2.1.1 LIFE C YCLE...........................................................................................................................................6 2.1.2 PATHOGENESIS MECHANISMS.............................................................................................................. 7 2.1.3 TOXINS OF PHOTORHABDUS LUMINESCENS.............................................................................................. 8 2.1.3.1 TOXIN COMPLEX (TC)-TOXINS........................................................................................................ 9 2.1.3.2 PHOTORHABDUS VIRULENCE CASSETTES (PVCS)...........................................................................10 2.1.3.3 BINARY PHOTORHABDUS TOXINS................................................................................................... 11 2.1.3.4 MAKES CATERPILLARS FLOPPY (MCF)-TOXINS................................................................................11 2.2 CLOSTRIDIUM DIFFICILE......................................................................................................................................... 14 2.2.1 LARGE CLOSTRIDIAL GLYCOSYLATING TOXINS.............................................................................................14 2.2.1.1 MECHANISM OF ACTION OF TCDA AND TCDB..............................................................................14 2.2.1.2 ARCHITECTURE AND STRUCTURE OF TCDA AND TCDB.....................................................................16 2.3 STRUCTURAL ANALYSIS............................................................................................................................................19 2.3.1 ELECTRON MICROSCOPY ON BIOLOGICAL SAMPLES................................................................................. 20 2.3.1.1 RECENT DEVELOPMENTS AND THE RESOLUTION REVOLUTION.......................................................23 2.3.1.1.1 VOLTA PHASE P LA TE ............................................................................................................. 25 2.3.1.2 SINGLE PARTICLE ANALYSIS........................................................................................................... 26 3 MATERIALS.............................................................................................................................................................. 29 3.1 DEVICES, ACCESSORIES..................................................................................................................................... 29 3.1.1 CHROMATOGRAPHY COLUMNS........................................................................................................... 30 3.2 CHEMICALS, SOLUTIONS, CONSUMABLES............................................................................................................31 3.3 MEDIA, BUFFERS.................................................................................................................................................. 32 3.4 KITSYSTEMS/SCREENS......................................................................................................................................... 33 3.4.1 CRYSTALLIZATION KITS/SCREENS.............................................................................................................. 33 3.5 ENZYMES, ANTIBODIES.......................................................................................................................................34 3.6 SOFTWARE............................................................................................................................................................ 34 4 METHODS.................................................................................................................................................................35 4.1 MOLECULAR-BIOLOGICAL & PROTEINBIOCHEMICAL METHODS............................................................................. 35 4.1.1 TRANSFORMATION OF CHEMICAL COM PETENT CELLS VIA HEATSHOCK......................................................35 4.1.2 EXPRESSION IN E. CO LI..........................................................................................................................35 4.1.3 PROTEIN PURIFICATION.......................................................................................................................... 35 4.1.3.1 AFFINITY CHROMATOGRAPHY....................................................................................................... 36 4.1.3.2 SIZE EXCLUSION CHROMATOGRAPHY............................................................................................ 36 4.1.3.3 LONEXCHANGE CHROMATOGRAPHY............................................................................................ 37 4.1.4 VISUALIZATION VIA SDS-PAGE............................................................................................................. 37 4.1.5 WESTERN BLOT.....................................................................................................................................37 4.1.6 TRYPTIC IN-GEL DIGESTION & HPLC-MS-ANALYSIS OF DIGESTED PROTEINS ............................................... 38 4.1.7 CONCENTRATION DETERMINATION OF PROTEINS VIA UV-ABSORPTION ....................................................... 38 4.1.8 PROTEIN STABILITY SCREEN (NANODSF)................................................................................................. 39 4.1.9 INSPOE-INDUCED AUTOCATALYTIC C LEAVAGE.........................................................................................39 4.1.10 RECONSTITUTION OF PROTEINS INTO MEMBRANE SYSTEMS ............................................................... 42 4.1.10.1 NANODISCS AND LIPOSOMES.................................................................................................... 43 4.1.10.2 CELL GHOSTS............................................................................................................................... 44 4.2 CELL BIOLOGICAL M ETHODS.................................................................................................................................45 4.2.1 CELL PROPAGATION............................................................................................................................. 45 4.2.1.1 INSECT CELLS...............................................................................................................................45 4.2.1.2 MAMMALIAN CELLS.................................................................................................................... 45 4.2.2 CELLTITER BLUE ASSAY.......................................................................................................................... 45 4.3 STRUCTURAL BIOLOGY METHODS............................................................................................................................ 47 4.3.1 NEGATIVE STAIN ELECTRON M ICROSCOPY............................................................................................. 47 4.3.1.1 SAMPLE PREPARATION................................................................................................................47 4.3.1.2 DATA C OLLECTION...................................................................................................................... 48 4.3.1.3 SINGLE PARTICLE ANALYSIS & PROCESSING..................................................................................... 48 4.3.1.4 GOLD LABELING......................................................................................................................... 49 4.3.2 ELECTRON CRYO-MICROSCOPY...............................................................................................................49 4.3.2.1 SAMPLE PREPARATION.............................................................................................................. 49 4.3.2.1.1 PURE IC E ............................................................................................................................. 50 4.3.2.1.2 GRAPHENE OXIDE................................................................................................................51 4.3.2.2 DATA C OLLECTION...................................................................................................................... 51 4.3.2.2.1 M CFL ON FEI TITAN KRIOS WITH FALCON II.................................................................................51 4.3.2.2.2 M C FL, TCDA/TCDB ON FEI TITAN KRIOS WITH K2 SUMMIT, ENERGY FILTER AND VOLTA PHASE PLATE 52 4.3.2.3 SINGLE PARTICLE ANALYSIS........................................................................................................... 53 4.3.2.3.1 PRE-PROCESSING....................................................................................................................54 4.3.2.3.2 PROCESSING........................................................................................................................... 55 4.3.2.4 STRUCTURE ANALYSIS....................................................................................................................57 4.3.3 PROTEIN CRYSTALLOGRAPHY...................................................................................................................57 4.3.3.1 PROTEIN CONCENTRATION............................................................................................................ 57 4.3.3.2 CRYSTALLIZATION ACCORDING TO VAPOR-DIFFUSION........................................................................58 4.3.3.3 OPTIMIZATION OF CRYSTALLIZATION CONDITIONS........................................................................... 59 4.3.3.3.1 LIMITED PROTEOLYSIS............................................................................................................... 59 4.3.3.3.2 LYSINE METHYLATION............................................................................................................. 60 4.3.3.4 PROTEIN CRYSTAL CRYO CONSERVATION......................................................................................... 61 5 RESULTS AND DISCUSSION............................................................................................................................... 62 5.1 PHOTORHABDUS LUMINESCENS M CFL TOXIN....................................................................................................... 62 5.1.1 PROTEIN ISOLATION AFTER EXPRESSION IN E. COLI...................................................................................... 62 5.1.1.1 ANALYSIS OF PROTEIN STABILITY IN VARIOUS BUFFER CONDITIONS...................................................... 64 5.1.2 M CFL IS TOXIC TO INSECT AND MAMMALIAN CELLS...............................................................................66 5.1.2.1 EFFECT ON THE INSECT CELL LINES SF9, HIGH FIVE*, TNAO38 AND DS2.......................................66 5.1.2.2 EFFECT ON THE MAMMALIAN CELL LINE HEK293.........................................................................69 5.1.3 STRUCTURE DETERMINATION BY X-RAY CRYSTALLOGRAPHY........................................................................70 5.1.3.1 LIMITED PROTEOLYSIS FOR RECEIVING STABLE PROTEIN FRAGMENTS .............................................. 72 5.1.4 STRUCTURE DETERMINATION BY ELECTRON MICROSCOPY ...................................................................... 75 5.1.4.1 EVALUATION WITH NEGATIVE STAIN EM......................................................................................76 5.1.4.1.1 M CFL DOES NOT SHOW A PH-DEPENDENT STRUCTURAL REARRANGEMENT ............................. 77 5.1.4.1.2 THE M CFL HYDROPHOBICITY PATTERN AND SECONDARY STRUCTURE PREDICTIONS SUGGEST A HELICAL PORE......................................................................................................................................... 78 5.1.4.1.3 M CFL BINDS TO MEMBRANES - RECONSTITUTION INTO DIFFERENT MEMBRANE SYSTEMS (NANODISCS, LIPOSOMES, CELL-GHOSTS)....................................................................................................80 5.1.4.2 EVALUATION WITH CRYO-EM......................................................................................................... 84 5.1.4.2.1 VITRIFICATION OF M C FL.......................................................................................................... 84 5.1.4.2.2 PROCESSING AND STRUCTURE OF M C FL....................................................................................86 5.1.5 DOES M CFL HAVE AN LNSP6 INDUCIBLE INTRINSIC CYSTEINE PROTEASE DOMAIN ................................... 91 5.2 CLOSTRIDIUM DIFFICILE ENTEROTOXIN A (TCDA) & CYTOTOXIN B (TCDB) ............................................................ 94 5.2.1 EVALUATION WITH NEGATIVE STAIN EM................................................................................................ 94 5.2.1.1 ACIDIC PH CAUSES A STRUCTURAL REARRANGEMENT FOR BOTH TOXINS, TCDA AND TCDB .............. 95 5.2.1.2 RECONSTITUTION OF TCDA AND TCDB INTO LIPID BILAYERS.............................................................97 5.2.1.2.1 CHOLESTEROL IS NOT NECESSARY FOR THE RECONSTITUTION OF TCDB INTO LIPOSOMES AND NANODISCS 98 5.2.1.2.2 TCDA REQUIRES CHOLESTEROL FOR THE INSERTION INTO LIPOSOMES ...................................... 101 5.2.2 EVALUATION OF TCDA WITH CRYO-EM................................................................................................. 102 5.2.2.1 VITRIFICATION, PROCESSING AND STRUCTURE OF TCDA...................................................................102 5.2.2.1.1 AA BEING INVOLVED IN THE INTERACTION BETWEEN THE TCDA CORE- AND CROPS-DOMAIN 107 5.3 STRUCTURAL COMPARISON OF M CFL AND TCDA................................................................................................I L L 5.4 COMPREHENSIVE DISCUSSION........................................................................................................................ 114 6 REFERENCES.......................................................................................................................................................... 117 7 APPENDIX..............................................................................................................................................................130 7.1 CONSTRUCTS.......................................................................................................................................................130 7.1.1 M C FL................................................................................................................................................130 7.1.1.1 568 PETL 9_6HIS_3C_MCFL Q439K PHOTO, LUM. AKHURSTII.......................................................131 7.1.1.2 573 PET19 MCFL_3C_6HIS PHOTO, LUM. AKHURSTII..................................................................132 7.1.1.3 1195 PETL 9_NHIS_MCF 1_837-1585_CYSPROT............................................................................132 7.1.1.4 1196 PETL 9_CHIS_MCF 1 _837-1585_CYSPROT............................................................................133 7.1.1.5 1221 PETL 9_NHIS_3C_MCF 1 _AA_1277-1585_CYSPROT.............................................................133 7.1.1.6 1222 PETL 9_CHIS_3C_MCF 1 _AA_1277-1585_CYSPROT.............................................................134 7.1.1.7 1223 PETL9_NHIS_3C_MCF 1 _AA_2275-2890...........................................................................134 7.1.1.8 1224 PETL9_CHIS_3C_MCF 1 _AA_2275-2890...........................................................................135 7.1.1.9 1446 PET19 MCFL_3C_STREPLL PHOTO, LUM. AKHURSTII.............................................................135 7.1.1.10 1452 PETL 9_STREP_3C_MCFL Q439K PHOTO, LUM. AKHURSTII.................................................136 7.1.1.11 1504 PETL9_6HIS_3C_MCFL Q439K PHOTO, LUM. AKHURSTII_C1397A .................................... 136 7.2 SECONDARY STRUCTURE PREDICTION OF M C FL...................................................................................................137 7.3 HPLC-MS RAW DATA OF LIMITED PROTEOLYSIS FRAGMENTS...........................................................................142 7.4 PROCESSING COMMANDS................................................................................................................................ 145 ACKNOWLEDGEMENT.................................................................................................................................................. 147 PUBLICATIONS/CONFERENCE CONTRIBUTIONS...................................................................................................... 148
adam_txt	CONTENT CONTENT. 1 I. LIST OF ABBREVIATIONS. 1 1 ABSTRACT / SUMMARY. 4 1.1 ABSTRACT. 4 1.2 ZUSAMMENFASSUNG. 5 2 INTRODUCTION.6 2.1 PHOTORHABDUS LUMINESCENS.6 2.1.1 LIFE C YCLE.6 2.1.2 PATHOGENESIS MECHANISMS. 7 2.1.3 TOXINS OF PHOTORHABDUS LUMINESCENS. 8 2.1.3.1 TOXIN COMPLEX (TC)-TOXINS. 9 2.1.3.2 PHOTORHABDUS VIRULENCE CASSETTES (PVCS).10 2.1.3.3 BINARY PHOTORHABDUS TOXINS. 11 2.1.3.4 MAKES CATERPILLARS FLOPPY (MCF)-TOXINS.11 2.2 CLOSTRIDIUM DIFFICILE. 14 2.2.1 LARGE CLOSTRIDIAL GLYCOSYLATING TOXINS.14 2.2.1.1 MECHANISM OF ACTION OF TCDA AND TCDB.14 2.2.1.2 ARCHITECTURE AND STRUCTURE OF TCDA AND TCDB.16 2.3 STRUCTURAL ANALYSIS.19 2.3.1 ELECTRON MICROSCOPY ON BIOLOGICAL SAMPLES. 20 2.3.1.1 RECENT DEVELOPMENTS AND THE RESOLUTION REVOLUTION.23 2.3.1.1.1 VOLTA PHASE P LA TE . 25 2.3.1.2 SINGLE PARTICLE ANALYSIS. 26 3 MATERIALS. 29 3.1 DEVICES, ACCESSORIES. 29 3.1.1 CHROMATOGRAPHY COLUMNS. 30 3.2 CHEMICALS, SOLUTIONS, CONSUMABLES.31 3.3 MEDIA, BUFFERS. 32 3.4 KITSYSTEMS/SCREENS. 33 3.4.1 CRYSTALLIZATION KITS/SCREENS. 33 3.5 ENZYMES, ANTIBODIES.34 3.6 SOFTWARE. 34 4 METHODS.35 4.1 MOLECULAR-BIOLOGICAL & PROTEINBIOCHEMICAL METHODS. 35 4.1.1 TRANSFORMATION OF CHEMICAL COM PETENT CELLS VIA HEATSHOCK.35 4.1.2 EXPRESSION IN E. CO LI.35 4.1.3 PROTEIN PURIFICATION. 35 4.1.3.1 AFFINITY CHROMATOGRAPHY. 36 4.1.3.2 SIZE EXCLUSION CHROMATOGRAPHY. 36 4.1.3.3 LONEXCHANGE CHROMATOGRAPHY. 37 4.1.4 VISUALIZATION VIA SDS-PAGE. 37 4.1.5 WESTERN BLOT.37 4.1.6 TRYPTIC IN-GEL DIGESTION & HPLC-MS-ANALYSIS OF DIGESTED PROTEINS . 38 4.1.7 CONCENTRATION DETERMINATION OF PROTEINS VIA UV-ABSORPTION . 38 4.1.8 PROTEIN STABILITY SCREEN (NANODSF). 39 4.1.9 INSPOE-INDUCED AUTOCATALYTIC C LEAVAGE.39 4.1.10 RECONSTITUTION OF PROTEINS INTO MEMBRANE SYSTEMS . 42 4.1.10.1 NANODISCS AND LIPOSOMES. 43 4.1.10.2 CELL GHOSTS. 44 4.2 CELL BIOLOGICAL M ETHODS.45 4.2.1 CELL PROPAGATION. 45 4.2.1.1 INSECT CELLS.45 4.2.1.2 MAMMALIAN CELLS. 45 4.2.2 CELLTITER BLUE ASSAY. 45 4.3 STRUCTURAL BIOLOGY METHODS. 47 4.3.1 NEGATIVE STAIN ELECTRON M ICROSCOPY. 47 4.3.1.1 SAMPLE PREPARATION.47 4.3.1.2 DATA C OLLECTION. 48 4.3.1.3 SINGLE PARTICLE ANALYSIS & PROCESSING. 48 4.3.1.4 GOLD LABELING. 49 4.3.2 ELECTRON CRYO-MICROSCOPY.49 4.3.2.1 SAMPLE PREPARATION. 49 4.3.2.1.1 PURE IC E . 50 4.3.2.1.2 GRAPHENE OXIDE.51 4.3.2.2 DATA C OLLECTION. 51 4.3.2.2.1 M CFL ON FEI TITAN KRIOS WITH FALCON II.51 4.3.2.2.2 M C FL, TCDA/TCDB ON FEI TITAN KRIOS WITH K2 SUMMIT, ENERGY FILTER AND VOLTA PHASE PLATE 52 4.3.2.3 SINGLE PARTICLE ANALYSIS. 53 4.3.2.3.1 PRE-PROCESSING.54 4.3.2.3.2 PROCESSING. 55 4.3.2.4 STRUCTURE ANALYSIS.57 4.3.3 PROTEIN CRYSTALLOGRAPHY.57 4.3.3.1 PROTEIN CONCENTRATION. 57 4.3.3.2 CRYSTALLIZATION ACCORDING TO VAPOR-DIFFUSION.58 4.3.3.3 OPTIMIZATION OF CRYSTALLIZATION CONDITIONS. 59 4.3.3.3.1 LIMITED PROTEOLYSIS. 59 4.3.3.3.2 LYSINE METHYLATION. 60 4.3.3.4 PROTEIN CRYSTAL CRYO CONSERVATION. 61 5 RESULTS AND DISCUSSION. 62 5.1 PHOTORHABDUS LUMINESCENS M CFL TOXIN. 62 5.1.1 PROTEIN ISOLATION AFTER EXPRESSION IN E. COLI. 62 5.1.1.1 ANALYSIS OF PROTEIN STABILITY IN VARIOUS BUFFER CONDITIONS. 64 5.1.2 M CFL IS TOXIC TO INSECT AND MAMMALIAN CELLS.66 5.1.2.1 EFFECT ON THE INSECT CELL LINES SF9, HIGH FIVE*, TNAO38 AND DS2.66 5.1.2.2 EFFECT ON THE MAMMALIAN CELL LINE HEK293.69 5.1.3 STRUCTURE DETERMINATION BY X-RAY CRYSTALLOGRAPHY.70 5.1.3.1 LIMITED PROTEOLYSIS FOR RECEIVING STABLE PROTEIN FRAGMENTS . 72 5.1.4 STRUCTURE DETERMINATION BY ELECTRON MICROSCOPY . 75 5.1.4.1 EVALUATION WITH NEGATIVE STAIN EM.76 5.1.4.1.1 M CFL DOES NOT SHOW A PH-DEPENDENT STRUCTURAL REARRANGEMENT . 77 5.1.4.1.2 THE M CFL HYDROPHOBICITY PATTERN AND SECONDARY STRUCTURE PREDICTIONS SUGGEST A HELICAL PORE. 78 5.1.4.1.3 M CFL BINDS TO MEMBRANES - RECONSTITUTION INTO DIFFERENT MEMBRANE SYSTEMS (NANODISCS, LIPOSOMES, CELL-GHOSTS).80 5.1.4.2 EVALUATION WITH CRYO-EM. 84 5.1.4.2.1 VITRIFICATION OF M C FL. 84 5.1.4.2.2 PROCESSING AND STRUCTURE OF M C FL.86 5.1.5 DOES M CFL HAVE AN LNSP6 INDUCIBLE INTRINSIC CYSTEINE PROTEASE DOMAIN . 91 5.2 CLOSTRIDIUM DIFFICILE ENTEROTOXIN A (TCDA) & CYTOTOXIN B (TCDB) . 94 5.2.1 EVALUATION WITH NEGATIVE STAIN EM. 94 5.2.1.1 ACIDIC PH CAUSES A STRUCTURAL REARRANGEMENT FOR BOTH TOXINS, TCDA AND TCDB . 95 5.2.1.2 RECONSTITUTION OF TCDA AND TCDB INTO LIPID BILAYERS.97 5.2.1.2.1 CHOLESTEROL IS NOT NECESSARY FOR THE RECONSTITUTION OF TCDB INTO LIPOSOMES AND NANODISCS 98 5.2.1.2.2 TCDA REQUIRES CHOLESTEROL FOR THE INSERTION INTO LIPOSOMES . 101 5.2.2 EVALUATION OF TCDA WITH CRYO-EM. 102 5.2.2.1 VITRIFICATION, PROCESSING AND STRUCTURE OF TCDA.102 5.2.2.1.1 AA BEING INVOLVED IN THE INTERACTION BETWEEN THE TCDA CORE- AND CROPS-DOMAIN 107 5.3 STRUCTURAL COMPARISON OF M CFL AND TCDA.I L L 5.4 COMPREHENSIVE DISCUSSION. 114 6 REFERENCES. 117 7 APPENDIX.130 7.1 CONSTRUCTS.130 7.1.1 M C FL.130 7.1.1.1 568 PETL 9_6HIS_3C_MCFL Q439K PHOTO, LUM. AKHURSTII.131 7.1.1.2 573 PET19 MCFL_3C_6HIS PHOTO, LUM. AKHURSTII.132 7.1.1.3 1195 PETL 9_NHIS_MCF 1_837-1585_CYSPROT.132 7.1.1.4 1196 PETL 9_CHIS_MCF 1 _837-1585_CYSPROT.133 7.1.1.5 1221 PETL 9_NHIS_3C_MCF 1 _AA_1277-1585_CYSPROT.133 7.1.1.6 1222 PETL 9_CHIS_3C_MCF 1 _AA_1277-1585_CYSPROT.134 7.1.1.7 1223 PETL9_NHIS_3C_MCF 1 _AA_2275-2890.134 7.1.1.8 1224 PETL9_CHIS_3C_MCF 1 _AA_2275-2890.135 7.1.1.9 1446 PET19 MCFL_3C_STREPLL PHOTO, LUM. AKHURSTII.135 7.1.1.10 1452 PETL 9_STREP_3C_MCFL Q439K PHOTO, LUM. AKHURSTII.136 7.1.1.11 1504 PETL9_6HIS_3C_MCFL Q439K PHOTO, LUM. AKHURSTII_C1397A . 136 7.2 SECONDARY STRUCTURE PREDICTION OF M C FL.137 7.3 HPLC-MS RAW DATA OF LIMITED PROTEOLYSIS FRAGMENTS.142 7.4 PROCESSING COMMANDS. 145 ACKNOWLEDGEMENT. 147 PUBLICATIONS/CONFERENCE CONTRIBUTIONS. 148
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author	Hagel, Philine 1989-
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spelling	Hagel, Philine 1989- Verfasser (DE-588)1175005274 aut Structural insights into multidomain toxins - Mcf1 (P. Iuminescens) and TcdA&TcdB (C. difficile) submitted 2018 by Philine Nagel Dortmund [2018?] 148 Seiten Illustrationen 21 cm txt rdacontent n rdamedia nc rdacarrier Dissertation Technical University of Dortmund 2018 (DE-588)4113937-9 Hochschulschrift gnd-content B:DE-101 application/pdf http://d-nb.info/1176153064/04 Inhaltsverzeichnis DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032365656&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Hagel, Philine 1989- Structural insights into multidomain toxins - Mcf1 (P. Iuminescens) and TcdA&TcdB (C. difficile)
subject_GND	(DE-588)4113937-9
title	Structural insights into multidomain toxins - Mcf1 (P. Iuminescens) and TcdA&TcdB (C. difficile)
title_auth	Structural insights into multidomain toxins - Mcf1 (P. Iuminescens) and TcdA&TcdB (C. difficile)
title_exact_search	Structural insights into multidomain toxins - Mcf1 (P. Iuminescens) and TcdA&TcdB (C. difficile)
title_exact_search_txtP	Structural insights into multidomain toxins - Mcf1 (P. Iuminescens) and TcdA&TcdB (C. difficile)
title_full	Structural insights into multidomain toxins - Mcf1 (P. Iuminescens) and TcdA&TcdB (C. difficile) submitted 2018 by Philine Nagel
title_fullStr	Structural insights into multidomain toxins - Mcf1 (P. Iuminescens) and TcdA&TcdB (C. difficile) submitted 2018 by Philine Nagel
title_full_unstemmed	Structural insights into multidomain toxins - Mcf1 (P. Iuminescens) and TcdA&TcdB (C. difficile) submitted 2018 by Philine Nagel
title_short	Structural insights into multidomain toxins - Mcf1 (P. Iuminescens) and TcdA&TcdB (C. difficile)
title_sort	structural insights into multidomain toxins mcf1 p iuminescens and tcda tcdb c difficile
topic_facet	Hochschulschrift
url	http://d-nb.info/1176153064/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032365656&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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