Verfügbarkeit: Engineering formatotrophic growth in Escherichia coli

Engineering formatotrophic growth in Escherichia coli:

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Bibliographische Detailangaben
1. Verfasser:	Wenk, Sebastian (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Potsdam [2020]
Schlagworte:	Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	V, 107 Seiten Illustrationen 30 cm

Internformat

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Datensatz im Suchindex

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adam_text	TABLE OF CONTENT OVERARCHING INTRODUCTION .......................................................................................................... 1 CO 2 -GREENHOUSE GAS AND VALUABLE FEEDSTOCK ............................................................................... 1 BIOLOGICAL CO2 AND CI FIXATION ......................................................................................................... 2 CO2 CAPTURE AND CONVERSION INTO FORMATE ...................................................................................... 4 TOWARDS A SUSTAINABLE BIOECONOMY - SYNTHETIC CI ASSIMILATION ................................................... 6 SYNTHETIC FORMATE ASSIMILATION PATHWAYS ....................................................................................... 7 AIM OF THIS WORK ............................................................................................................................... 9 MATERIALS ............................................................................................................................................. 11 REAGENTS ........................................................................................................................................ 11 GROWTH MEDIA ................................................................................................................................ 11 BACTERIAL STRAINS ............................................................................................................................. 11 METHODS ............................................................................................................................................... 16 GENOME ENGINEERING ..................................................................................................................... 16 SYNTHETIC OPERON CONSTRUCTION ..................................................................................................... 17 GROWTH CHARACTERIZATION IN MICROPLATE READERS ........................................................................... 18 ANALYSIS OF SUPERNATANT BY ION CHROMATOGRAPHY .......................................................................... 18 13 C-LABELLING OF PROTEINOGENIC AMINO ACIDS ................................................................................... 19 DRY WEIGHT ANALYSIS ................................................................. 19 ENZYMES AND CHEMICAL ASSAYS ....................................................................................................... 20 QUANTITATIVE POLYMERASE CHAIN REACTION ...................................................................................... 20 CHAPTER 1: ESTABLISHING A STRATEGY AND METHODS FOR METABOLIC ENGINEERING OF E. COU ........ . .............................. ............ ...21 STRAIN ENGINEERING: IN VIVO SELECTION FOR PATHWAY MODULES ......................................................... 23 PATHWAY ENGINEERING: FINE-TUNE EXPRESSION OF ENZYMES ............................................................. 25 GENOMIC INTEGRATION OF SYNTHETIC OPERONS ................................................................................... 27 GROWTH EXPERIMENTS: IN VIVO SELECTION FOR PATHWAY ACTIVITY ....................................................... 29 PATHWAY CONFIRMATION: 13 C-LABELING OF PROTEINOGENIC AMINO ACIDS ............................................. 32 CHAPTER 2: AN ENERGY AUXOTROPH E. COU TO TEST THE IN VIVO ACTIVITY OF CI- OXIDIZING ENZYMES...... ............................................ 33 CONSTRUCTION AND VALIDATION OF AN E. COLI STRAIN AUXOTROPH TO REDUCING POWER AND ENERGY ...... 34 TESTING FORMATE AS A REDUCING POWER SOURCE ............................................................................... 37 TESTING METHANOL AS A REDUCING POWER SOURCE ............................................................................. 38 CHAPTER 3: ESTABLISHING THE SERINE THREONINE CYCLE IN COLL ................... ............. 43 PRODUCTION OF ACETYL-COA, GLYCINE AND SERINE VIA THREONINE SYNTHESIS AND CLEAVAGE ............... 45 ESTABLISHMENT OF AN EXTERNAL ENERGY PRODUCTION MODULE IMPROVES GROWTH ON GLYCEROL AND ALLOWS GROWTH ON PYRUVATE ............................................................................................................ 49 FORMATE IS ASSIMILATED TO ALLOW GROWTH VIA THE SERINE THREONINE CYCLE ...................................... 51 SHORT-TERM EVOLUTION IMPROVES GROWTH ON PYRUVATE AND FORMATE AND ENABLES GROWTH ON GLYCINE AND FORMATE .................................................................................................................... 54 CHAPTER 4: GROWTH OF E. COU ON FORMATE AND METHANOL VIA THE REDUCTIVE GLYCINE PATHWAY ...................... 57 THE REDUCTIVE GLYCINE PATHWAY ...................................................................................................... 59 MODULAR ENGINEERING ESTABLISHES GROWTH ON FORMATE .................................................................. 61 SHORT-TERM EVOLUTION IMPROVES GROWTH ON FORMATE .................................................................... 64 CARBON LABELLING SHEDS LIGHT ON CELLULAR FLUXES ............................................................................. 66 ENGINEERED GROWTH OF E. COLI ON METHANOL ................................................................................... 67 DISCUSSION ............................................................................................................................................ 71 SYNTHETIC BACTERIAL METABOLISM ..................................................................................................... 71 THE POWER OF ADAPTIVE LABORATORY EVOLUTION ............................................................................... 72 MEETING CELLULAR ENERGY DEMANDS BY CI OXIDATION ....................................................................... 73 FORMATOTROPHIC GROWTH VIA THE REDUCTIVE GLYCINE PATHWAY ......................................................... 74 FORMATOTROPHIC GROWTH VIA THE SERINE THREONINE CYCLE ............................................................... 75 OUTLOOK - THE FUTURE OF SYNTHETIC CI METABOLISM ........................................................................ 77 APPENDIX ............................................................................................................................................... 79 SUPPLEMENTARY FIGURES .................................................................................................................. 79 REFERENCES ............................................................................................................................................ 89 DISCLAIMER .......................................................................................................................................... 103 DECLARATION OF WORK ................................................................................................................... 105 EIDESSTATTLICHE ERKLARUNG ........................................................................................................ 105 ACKNOWLEDGEMENTS ..................................................................................................................... 107 II
adam_txt	TABLE OF CONTENT OVERARCHING INTRODUCTION . 1 CO 2 -GREENHOUSE GAS AND VALUABLE FEEDSTOCK . 1 BIOLOGICAL CO2 AND CI FIXATION . 2 CO2 CAPTURE AND CONVERSION INTO FORMATE . 4 TOWARDS A SUSTAINABLE BIOECONOMY - SYNTHETIC CI ASSIMILATION . 6 SYNTHETIC FORMATE ASSIMILATION PATHWAYS . 7 AIM OF THIS WORK . 9 MATERIALS . 11 REAGENTS . 11 GROWTH MEDIA . 11 BACTERIAL STRAINS . 11 METHODS . 16 GENOME ENGINEERING . 16 SYNTHETIC OPERON CONSTRUCTION . 17 GROWTH CHARACTERIZATION IN MICROPLATE READERS . 18 ANALYSIS OF SUPERNATANT BY ION CHROMATOGRAPHY . 18 13 C-LABELLING OF PROTEINOGENIC AMINO ACIDS . 19 DRY WEIGHT ANALYSIS . 19 ENZYMES AND CHEMICAL ASSAYS . 20 QUANTITATIVE POLYMERASE CHAIN REACTION . 20 CHAPTER 1: ESTABLISHING A STRATEGY AND METHODS FOR METABOLIC ENGINEERING OF E. COU . . . . .21 STRAIN ENGINEERING: IN VIVO SELECTION FOR PATHWAY MODULES . 23 PATHWAY ENGINEERING: FINE-TUNE EXPRESSION OF ENZYMES . 25 GENOMIC INTEGRATION OF SYNTHETIC OPERONS . 27 GROWTH EXPERIMENTS: IN VIVO SELECTION FOR PATHWAY ACTIVITY . 29 PATHWAY CONFIRMATION: 13 C-LABELING OF PROTEINOGENIC AMINO ACIDS . 32 CHAPTER 2: AN ENERGY AUXOTROPH E. COU TO TEST THE IN VIVO ACTIVITY OF CI- OXIDIZING ENZYMES. . 33 CONSTRUCTION AND VALIDATION OF AN E. COLI STRAIN AUXOTROPH TO REDUCING POWER AND ENERGY . 34 TESTING FORMATE AS A REDUCING POWER SOURCE . 37 TESTING METHANOL AS A REDUCING POWER SOURCE . 38 CHAPTER 3: ESTABLISHING THE SERINE THREONINE CYCLE IN COLL . . 43 PRODUCTION OF ACETYL-COA, GLYCINE AND SERINE VIA THREONINE SYNTHESIS AND CLEAVAGE . 45 ESTABLISHMENT OF AN EXTERNAL ENERGY PRODUCTION MODULE IMPROVES GROWTH ON GLYCEROL AND ALLOWS GROWTH ON PYRUVATE . 49 FORMATE IS ASSIMILATED TO ALLOW GROWTH VIA THE SERINE THREONINE CYCLE . 51 SHORT-TERM EVOLUTION IMPROVES GROWTH ON PYRUVATE AND FORMATE AND ENABLES GROWTH ON GLYCINE AND FORMATE . 54 CHAPTER 4: GROWTH OF E. COU ON FORMATE AND METHANOL VIA THE REDUCTIVE GLYCINE PATHWAY . 57 THE REDUCTIVE GLYCINE PATHWAY . 59 MODULAR ENGINEERING ESTABLISHES GROWTH ON FORMATE . 61 SHORT-TERM EVOLUTION IMPROVES GROWTH ON FORMATE . 64 CARBON LABELLING SHEDS LIGHT ON CELLULAR FLUXES . 66 ENGINEERED GROWTH OF E. COLI ON METHANOL . 67 DISCUSSION . 71 SYNTHETIC BACTERIAL METABOLISM . 71 THE POWER OF ADAPTIVE LABORATORY EVOLUTION . 72 MEETING CELLULAR ENERGY DEMANDS BY CI OXIDATION . 73 FORMATOTROPHIC GROWTH VIA THE REDUCTIVE GLYCINE PATHWAY . 74 FORMATOTROPHIC GROWTH VIA THE SERINE THREONINE CYCLE . 75 OUTLOOK - THE FUTURE OF SYNTHETIC CI METABOLISM . 77 APPENDIX . 79 SUPPLEMENTARY FIGURES . 79 REFERENCES . 89 DISCLAIMER . 103 DECLARATION OF WORK . 105 EIDESSTATTLICHE ERKLARUNG . 105 ACKNOWLEDGEMENTS . 107 II
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spellingShingle	Wenk, Sebastian Engineering formatotrophic growth in Escherichia coli
subject_GND	(DE-588)4113937-9
title	Engineering formatotrophic growth in Escherichia coli
title_auth	Engineering formatotrophic growth in Escherichia coli
title_exact_search	Engineering formatotrophic growth in Escherichia coli
title_exact_search_txtP	Engineering formatotrophic growth in Escherichia coli
title_full	Engineering formatotrophic growth in Escherichia coli Sebastian Wenk
title_fullStr	Engineering formatotrophic growth in Escherichia coli Sebastian Wenk
title_full_unstemmed	Engineering formatotrophic growth in Escherichia coli Sebastian Wenk
title_short	Engineering formatotrophic growth in Escherichia coli
title_sort	engineering formatotrophic growth in escherichia coli
topic_facet	Hochschulschrift
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