Verfügbarkeit: The production of antimicrobial polypeptides in chloroplasts

The production of antimicrobial polypeptides in chloroplasts:

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Bibliographische Detailangaben
1. Verfasser:	Hoelscher, Matthijs Pieter (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Potsdam August 2020
Schlagworte:	Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	xiii, 114 Seiten Illustrationen 30 cm

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Datensatz im Suchindex

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adam_text	CONTENTS E IDESSTATTUCHE E RKLARUNG .................................................................................................................................................. VI D ECLARATION OF CONTRIBUTIONS .................................................................................................................... VII A BSTRACT .................................................................................................................................................................................. VM L IST OF F IGURES AND TABLES .................................................................................................................................................... IX A BBREVIATIONS ......................................................................................................................................................................... XI 1 GENERAL INTRODUCTION 1 2 HIGH-LEVEL EXPRESSION OF THE HIV ENTRY INHIBITOR GRIFFITHSIN FROM THE PLASTID GENOME AND RETENTION OF BIOLOGICAL ACTIVITY IN DRIED TOBACCO LEAVES ............................ 2 2.1 A BSTRACT ....................................................................................................................................... 2 2.1.1 KEY MESSAGE ................................................................................................................................................................. 2 2.1.2 A BSTRACT ..................................................................................................................................... 2 2.2 I NTRODUCTION ................................................................................................................................. 2 2.3 M ATERIALS AND METHODS ................................................................................................................ 4 2.3.1 P LANT MATERIAL AND GROWTH CONDITIONS ...................................................................................... 4 2.3.2 C LONING PROCEDURES .................................................................................................................... 5 2.3.3 C HLOROPLAST TRANSFORMATION ...................................................................................................... 5 2.3.4 S ELECTABLE MARKER GENE REMOVAL ................................................................................................. 5 2.3.5 I SOLATION OF NUCLEIC ACIDS AND GEL BLOT ANALYSES ......................................................................... 5 2.3.6 P ROTEIN ISOLATION , PURIFICATION AND VISUALIZATION ........................................................................ 6 2.3.7 D ETERMINATION OF ANTI -HIV ACTIVITY OF PURIFIED GRIFFITHSIN .......................................................... 7 2.4 R ESULTS ........................................................................................................................................ 11 2.4.1 STABLE TRANSFORMATION OF THE TOBACCO PLASTID GENOME WITH A GRIFFITHSIN EXPRESSION CASSETTE ..11 2.4.2 S ELECTABLE MARKER GENE REMOVAL FROM TRANSPLASTOMIC PLANTS .................................................. 11 2.4.3 G RIFFITHSIN M RNA AND PROTEIN ACCUMULATION IN TRANSPLASTOMIC PLANTS ..................................... 12 2.4.4 P URIFICATION OF GRIFFITHSIN FROM TRANSPLASTOMIC TOBACCO PLANTS .............................................. 14 2.4.5 A NTI -HIV ACTIVITY OF CHLOROPLAST - EXPRESSED GRIFFITHSIN ............................................................. 15 2.4.6 P URIFICATION OF ACTIVE GRIFFITHSIN FROM DRIED TOBACCO ............................................................... 16 2.5 D ISCUSSION ................................................................................................................. 16 2.6 A CKNOWLEDGEMENTS ..................................................................................................................... 17 3 STRATEGIES FOR ANTIMICROBIAL PEPTIDE PRODUCTION IN CHLOROPLASTS .......................... 18 3.1 I NTRODUCTION ............................................................................................................................... 18 3.2 M ATERIALS AND METHODS .............................................................................................................. 25 3.2.1 DNA DESIGN OF FUSED ANTIMICROBIAL PEPTIDES .................................................................................................. 25 3.2.2 G ENERATION OF PLASTID TRANSFORMATION CONSTRUCTS ................................................................... 25 3.2.3 C ONSTITUTIVE HIGH EXPRESSION ..................................................................................................... 26 3.2.4 C HLOROPLAST CONSTRUCTS FOR INDUCIBLE EXPRESSION ..................................................................... 26 3.2.5 N UCLEAR ENCODED , ETHANOL - INDUCIBLE , PLASTID TARGETED T7 RNA POLYMERASE (P ET OH:: PT T7RP)....26 3.2.6 P REDICTION OF PROTEIN PROPERTIES BASED ON AMINO ACID SEQUENCE ................................................ 28 3.2.7 P ATHOGEN INDUCIBLE PLASTID TARGETED T7 RNA POLYMERASE .......................................................... 28 3.2.8 DNA PREPARATION FOR CHLOROPLAST TRANSFORMATION ................................................................................... 29 3.2.9 C HLOROPLAST TRANSFORMATION ..................................................................................................... 29 3.2.10 S OUTHERN BLOTTO CONFIRM THE HOMOPLASMIC STATE ................................................................... 30 3.2.11 P LANT GROWTH UNDER STERILE CONDITIONS ................................................................................... 30 3.2.12 S EED STERILIZATION ..................................................................................................................... 30 3.2.13 A NTIBIOTIC SELECTION OF SEEDLINGS .............................................................................................. 30 3.2.14 PLANT GROWTH IN GREENHOUSE ........................................................................................................................... 30 3.2.15 G RAFTING .................................................................................................................................. 30 3.2.16 P EPTIDE SYNTHESIS ...................................................................................................................... 31 3.2.17 P HENOL BASED PROTEIN EXTRACTION .............................................................................................. 31 3.2.18 E XTRACTION PROCEDURE TO TEST BUFFERS FOR F AMP EXTRACTION .................................................... 31 3.2.19 P ROTEIN EXTRACTION BUFFERS ...................................................................................................... 31 3.2.20 U REA EXTRACTION BUFFERS ........................................................................................................... 31 3.2.21 T RIS -T RICINE SAMPLE BUFFER ........................................................................................................ 31 3.2.22 D IRECT EXTRACTION WITH T RIS -T RICINE SAMPLE BUFFER ................................................................... 32 3.2.23 H IS - TAG PURIFICATION FROM PLANT MATERIAL ................................................................................ 32 3.2.24 T RIS -T RICINE SDS PAGE .............................................................................................................. 32 3.2.25 COOMASSIE STAINING GELS ..................................................................................................................................... 33 3.2.26 W ESTERN BLOT ........................................................................................................................... 33 3.2.27 COOMASSIE STAINING OF WESTERN BLOT ............................................................................................................... 33 3.2.28 I MMUNODETECTION OF WESTERN BLOT ........................................................................................... 33 3.2.29 B LUE N ATIVE PAGE ..................................................................................................................... 33 3.2.30 T HEOPHYLLINE INDUCTION OF RA MP ER PLANTS ............................................................................... 34 3.2.31 E THANOL INDUCTION ................................................................................................................... 34 3.2.32 T ESTING ANTI - MICROBIAL ACTIVITY IN VITRO ........................................................................................ 35 3.2.33 T RANSIENT TRANSFORMATION OF N ICOTIANA TABACUM PLANTS ......................................................... 35 3.2.34 A GROBACTERIUM TRANSFORMATION .............................................................................................. 35 3.2.35 S TABLE TRANSFORMATION OF N ICOTIANA TABACUM PLANTS .............................................................. 36 3.2.36 P LANT RESISTANCE ASSAYS PATHOGEN INFECTION ............................................................................. 36 3.2.37 R ECAPTURE OF BACTERIA FROM INFECTED PLANTS ............................................................................. 37 3.2.38 SUMO DIGESTION .................................................................................................................................................... 37 3.2.39 T ESTING CHLOROPLAST TRANSFORMATION CONSTRUCTS IN E . COLI ......................................................... 37 3.2.40 C ONFOCAL MICROSCOPY ............................................................................................................... 38 3.2.41 T RANSMISSION ELECTRON MICROSCOPY (TEM)................................................................................ 38 3.3 R ESULTS ......................................................................................................................................... 39 3.3.1 G ENERATION AND VALIDATION OF TRANSPLASTOMIC PLANTS THAT CONSTITUTIVELY PRODUCE F AMP S ....... 39 3.3.2 P LANT PHENOTYPES CAUSED BY STRONG CONSTITUTIVE EXPRESSION OF F AMP GENES .............................. 43 3.3.3 F AMP ACCUMULATION IN CONSTITUTIVELY EXPRESSING PLANTS ............................................................ 43 3.3.4 T HE INDUCIBLE RA MP ER SYSTEM ..................................................................................................... 44 3.3.5 P LANT PHENOTYPES OF RA MP ER:: F AMP PLANTS .............................................................................. 49 3.3.6 F AMP BACKGROUND LEVELS IN RA MP ER AND P T 7 PLANTS .................................................................. 50 3.3.7 RA MP ER INDUCTION OF F AMP PRODUCTION BY THEOPHYLLINE ......................................................................... 50 3.3.8 T HE EFFECT OF THEOPHYLLINE ON PLANT PHENOTYPES ......................................................................... 51 3.3.9 T HE EFFECT OF LEAF AGE ON ACCUMULATION ..................................................................................... 51 3.3.10 F AMP EXTRACTION UNDER NATIVE CONDITIONS ............................................................................... 51 3.3.11 T HE EFFECT OF F AMP ACCUMULATION ON CHLOROPLAST INTEGRITY .................................................... 56 3.3.12 E THANOL - INDUCIBLE F AMP PRODUCTION ....................................................................................... 56 3.3.13 F AMP EXTRACTION WITH DIFFERENT BUFFERS AND DETERGENTS ......................................................... 62 3.3.14 D ENATURING EXTRACTION OF 3-N OVESCANDIN -5 ............................................................................ 64 3.3.15 T HE EFFECT OF DETERGENTS , DENATURING AND ACETIC ACID ON THE EXTRACTION OF 3-NOVESCANDIN-5..64 3.3.16 H IS - TAG PURIFICATION ................................................................................................................. 65 3.3.17 I N VITRO ANTIMICROBIAL ACTIVITY OF F AMP S .................................................................................. 65 IV 3.3.18 S USCEPTIBILITY OF F AMP PRODUCING RA MP ER PLANTS TO PATHOGENS ............................................. 67 3.3.19 P ATHOGEN INDUCIBLE F AMP PRODUCTION .................................................................................... 72 3.3.20 SUMO FUSIONS FOR ENHANCED SOLUBILITY AND REDUCED TOXICITY ............................................................... 76 3.3.21 A CCUMULATION OF SUMO FUSIONS ............................................................................................. 77 3.3.22 E XTRACTION OF SUMO-3-W AMDEPOSIN -5 ................................................................................... 78 3.3.23 SUMO REMOVAL .................................................................................................................................................... 78 3.3.24 E THANOL - INDUCIBLE SUMO-3-W AMDEPOSIN -5 ............................................................................ 82 3.3.25 SUMO-HA-WAM1 TESTING IN E. COLI .............................................................................................................. 82 3.3.26 C LEAVAGE OF SUMO-HA-WAM1 FROM E. COU ................................................................................ 82 3.4 D ISCUSSION ................................................................................................................................... 83 3.4.1 F AMP PRODUCTION IN CHLOROPLASTS ............................................................................................ 83 3.4.2 T HE INDUCIBLE RA MP ER SYSTEM FOR F AMP PRODUCTION ................................................................. 86 3.4.3 L EAKY ACTIVATION OF THE T7 PROMOTER ......................................................................................... 86 3.4.4 RA MP ER INDUCTION OF F AMP PRODUCTION ................................................................................... 87 3.4.5 E T OH INDUCIBLE EXPRESSION OF F AMP S ......................................................................................... 88 3.4.6 E XTRACTION AND PURIFICATION OF F AMP S ...................................................................................... 89 3.4.7 I N VITRO ANTIMICROBIAL ACTIVITY OF F AMP S ................................................................................... 90 3.4.8 D ISEASE RESISTANCE OF F AMP PRODUCING PLANTS ........................................................................... 90 3.4.9 SUMO AS CARRIER PROTEIN FOR ( F )AMP PRODUCTION ...................................................................................... 92 3.5 C ONCLUSION .................................................................................................................................. 95 4 GENERAL DISCUSSION 96 R EFERENCES ........................................................................................................................................... 98 SUPPLEMENTARY FIGURES .................................................................................................................................................... 105 ALLGEMEINVERSTANDLICHE ZUSAMMENFASSUNG IN DEUTSCHER SPRACHE .................................................................. 109 CURRICULUM VITAE ................................................................................................................................................................ 110 P UBLICATIONS ...................................................................................................................................... 112 C ONFERENCE ATTENDANCE ...................................................................................................................... 112 S CHOLARSHIPS AND PRIZES ...................................................................................................................... 112 A CKNOWLEDGEMENTS ........................................................................................................................... 113 V
adam_txt	CONTENTS E IDESSTATTUCHE E RKLARUNG . VI D ECLARATION OF CONTRIBUTIONS . VII A BSTRACT . VM L IST OF F IGURES AND TABLES . IX A BBREVIATIONS . XI 1 GENERAL INTRODUCTION 1 2 HIGH-LEVEL EXPRESSION OF THE HIV ENTRY INHIBITOR GRIFFITHSIN FROM THE PLASTID GENOME AND RETENTION OF BIOLOGICAL ACTIVITY IN DRIED TOBACCO LEAVES . 2 2.1 A BSTRACT . 2 2.1.1 KEY MESSAGE . 2 2.1.2 A BSTRACT . 2 2.2 I NTRODUCTION . 2 2.3 M ATERIALS AND METHODS . 4 2.3.1 P LANT MATERIAL AND GROWTH CONDITIONS . 4 2.3.2 C LONING PROCEDURES . 5 2.3.3 C HLOROPLAST TRANSFORMATION . 5 2.3.4 S ELECTABLE MARKER GENE REMOVAL . 5 2.3.5 I SOLATION OF NUCLEIC ACIDS AND GEL BLOT ANALYSES . 5 2.3.6 P ROTEIN ISOLATION , PURIFICATION AND VISUALIZATION . 6 2.3.7 D ETERMINATION OF ANTI -HIV ACTIVITY OF PURIFIED GRIFFITHSIN . 7 2.4 R ESULTS . 11 2.4.1 STABLE TRANSFORMATION OF THE TOBACCO PLASTID GENOME WITH A GRIFFITHSIN EXPRESSION CASSETTE .11 2.4.2 S ELECTABLE MARKER GENE REMOVAL FROM TRANSPLASTOMIC PLANTS . 11 2.4.3 G RIFFITHSIN M RNA AND PROTEIN ACCUMULATION IN TRANSPLASTOMIC PLANTS . 12 2.4.4 P URIFICATION OF GRIFFITHSIN FROM TRANSPLASTOMIC TOBACCO PLANTS . 14 2.4.5 A NTI -HIV ACTIVITY OF CHLOROPLAST - EXPRESSED GRIFFITHSIN . 15 2.4.6 P URIFICATION OF ACTIVE GRIFFITHSIN FROM DRIED TOBACCO . 16 2.5 D ISCUSSION . 16 2.6 A CKNOWLEDGEMENTS . 17 3 STRATEGIES FOR ANTIMICROBIAL PEPTIDE PRODUCTION IN CHLOROPLASTS . 18 3.1 I NTRODUCTION . 18 3.2 M ATERIALS AND METHODS . 25 3.2.1 DNA DESIGN OF FUSED ANTIMICROBIAL PEPTIDES . 25 3.2.2 G ENERATION OF PLASTID TRANSFORMATION CONSTRUCTS . 25 3.2.3 C ONSTITUTIVE HIGH EXPRESSION . 26 3.2.4 C HLOROPLAST CONSTRUCTS FOR INDUCIBLE EXPRESSION . 26 3.2.5 N UCLEAR ENCODED , ETHANOL - INDUCIBLE , PLASTID TARGETED T7 RNA POLYMERASE (P ET OH:: PT T7RP).26 3.2.6 P REDICTION OF PROTEIN PROPERTIES BASED ON AMINO ACID SEQUENCE . 28 3.2.7 P ATHOGEN INDUCIBLE PLASTID TARGETED T7 RNA POLYMERASE . 28 3.2.8 DNA PREPARATION FOR CHLOROPLAST TRANSFORMATION . 29 3.2.9 C HLOROPLAST TRANSFORMATION . 29 3.2.10 S OUTHERN BLOTTO CONFIRM THE HOMOPLASMIC STATE . 30 3.2.11 P LANT GROWTH UNDER STERILE CONDITIONS . 30 3.2.12 S EED STERILIZATION . 30 3.2.13 A NTIBIOTIC SELECTION OF SEEDLINGS . 30 3.2.14 PLANT GROWTH IN GREENHOUSE . 30 3.2.15 G RAFTING . 30 3.2.16 P EPTIDE SYNTHESIS . 31 3.2.17 P HENOL BASED PROTEIN EXTRACTION . 31 3.2.18 E XTRACTION PROCEDURE TO TEST BUFFERS FOR F AMP EXTRACTION . 31 3.2.19 P ROTEIN EXTRACTION BUFFERS . 31 3.2.20 U REA EXTRACTION BUFFERS . 31 3.2.21 T RIS -T RICINE SAMPLE BUFFER . 31 3.2.22 D IRECT EXTRACTION WITH T RIS -T RICINE SAMPLE BUFFER . 32 3.2.23 H IS - TAG PURIFICATION FROM PLANT MATERIAL . 32 3.2.24 T RIS -T RICINE SDS PAGE . 32 3.2.25 COOMASSIE STAINING GELS . 33 3.2.26 W ESTERN BLOT . 33 3.2.27 COOMASSIE STAINING OF WESTERN BLOT . 33 3.2.28 I MMUNODETECTION OF WESTERN BLOT . 33 3.2.29 B LUE N ATIVE PAGE . 33 3.2.30 T HEOPHYLLINE INDUCTION OF RA MP ER PLANTS . 34 3.2.31 E THANOL INDUCTION . 34 3.2.32 T ESTING ANTI - MICROBIAL ACTIVITY IN VITRO . 35 3.2.33 T RANSIENT TRANSFORMATION OF N ICOTIANA TABACUM PLANTS . 35 3.2.34 A GROBACTERIUM TRANSFORMATION . 35 3.2.35 S TABLE TRANSFORMATION OF N ICOTIANA TABACUM PLANTS . 36 3.2.36 P LANT RESISTANCE ASSAYS PATHOGEN INFECTION . 36 3.2.37 R ECAPTURE OF BACTERIA FROM INFECTED PLANTS . 37 3.2.38 SUMO DIGESTION . 37 3.2.39 T ESTING CHLOROPLAST TRANSFORMATION CONSTRUCTS IN E . COLI . 37 3.2.40 C ONFOCAL MICROSCOPY . 38 3.2.41 T RANSMISSION ELECTRON MICROSCOPY (TEM). 38 3.3 R ESULTS . 39 3.3.1 G ENERATION AND VALIDATION OF TRANSPLASTOMIC PLANTS THAT CONSTITUTIVELY PRODUCE F AMP S . 39 3.3.2 P LANT PHENOTYPES CAUSED BY STRONG CONSTITUTIVE EXPRESSION OF F AMP GENES . 43 3.3.3 F AMP ACCUMULATION IN CONSTITUTIVELY EXPRESSING PLANTS . 43 3.3.4 T HE INDUCIBLE RA MP ER SYSTEM . 44 3.3.5 P LANT PHENOTYPES OF RA MP ER:: F AMP PLANTS . 49 3.3.6 F AMP BACKGROUND LEVELS IN RA MP ER AND P T 7 PLANTS . 50 3.3.7 RA MP ER INDUCTION OF F AMP PRODUCTION BY THEOPHYLLINE . 50 3.3.8 T HE EFFECT OF THEOPHYLLINE ON PLANT PHENOTYPES . 51 3.3.9 T HE EFFECT OF LEAF AGE ON ACCUMULATION . 51 3.3.10 F AMP EXTRACTION UNDER NATIVE CONDITIONS . 51 3.3.11 T HE EFFECT OF F AMP ACCUMULATION ON CHLOROPLAST INTEGRITY . 56 3.3.12 E THANOL - INDUCIBLE F AMP PRODUCTION . 56 3.3.13 F AMP EXTRACTION WITH DIFFERENT BUFFERS AND DETERGENTS . 62 3.3.14 D ENATURING EXTRACTION OF 3-N OVESCANDIN -5 . 64 3.3.15 T HE EFFECT OF DETERGENTS , DENATURING AND ACETIC ACID ON THE EXTRACTION OF 3-NOVESCANDIN-5.64 3.3.16 H IS - TAG PURIFICATION . 65 3.3.17 I N VITRO ANTIMICROBIAL ACTIVITY OF F AMP S . 65 IV 3.3.18 S USCEPTIBILITY OF F AMP PRODUCING RA MP ER PLANTS TO PATHOGENS . 67 3.3.19 P ATHOGEN INDUCIBLE F AMP PRODUCTION . 72 3.3.20 SUMO FUSIONS FOR ENHANCED SOLUBILITY AND REDUCED TOXICITY . 76 3.3.21 A CCUMULATION OF SUMO FUSIONS . 77 3.3.22 E XTRACTION OF SUMO-3-W AMDEPOSIN -5 . 78 3.3.23 SUMO REMOVAL . 78 3.3.24 E THANOL - INDUCIBLE SUMO-3-W AMDEPOSIN -5 . 82 3.3.25 SUMO-HA-WAM1 TESTING IN E. COLI . 82 3.3.26 C LEAVAGE OF SUMO-HA-WAM1 FROM E. COU . 82 3.4 D ISCUSSION . 83 3.4.1 F AMP PRODUCTION IN CHLOROPLASTS . 83 3.4.2 T HE INDUCIBLE RA MP ER SYSTEM FOR F AMP PRODUCTION . 86 3.4.3 L EAKY ACTIVATION OF THE T7 PROMOTER . 86 3.4.4 RA MP ER INDUCTION OF F AMP PRODUCTION . 87 3.4.5 E T OH INDUCIBLE EXPRESSION OF F AMP S . 88 3.4.6 E XTRACTION AND PURIFICATION OF F AMP S . 89 3.4.7 I N VITRO ANTIMICROBIAL ACTIVITY OF F AMP S . 90 3.4.8 D ISEASE RESISTANCE OF F AMP PRODUCING PLANTS . 90 3.4.9 SUMO AS CARRIER PROTEIN FOR ( F )AMP PRODUCTION . 92 3.5 C ONCLUSION . 95 4 GENERAL DISCUSSION 96 R EFERENCES . 98 SUPPLEMENTARY FIGURES . 105 ALLGEMEINVERSTANDLICHE ZUSAMMENFASSUNG IN DEUTSCHER SPRACHE . 109 CURRICULUM VITAE . 110 P UBLICATIONS . 112 C ONFERENCE ATTENDANCE . 112 S CHOLARSHIPS AND PRIZES . 112 A CKNOWLEDGEMENTS . 113 V
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spelling	Hoelscher, Matthijs Pieter Verfasser (DE-588)1219005088 aut The production of antimicrobial polypeptides in chloroplasts Matthijs Pieter Hoelscher Potsdam August 2020 xiii, 114 Seiten Illustrationen 30 cm txt rdacontent n rdamedia nc rdacarrier Dissertation Universität Potsdam 2020 (DE-588)4113937-9 Hochschulschrift gnd-content B:DE-101 application/pdf https://d-nb.info/1221382128/04 Inhaltsverzeichnis DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032730632&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Hoelscher, Matthijs Pieter The production of antimicrobial polypeptides in chloroplasts
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title	The production of antimicrobial polypeptides in chloroplasts
title_auth	The production of antimicrobial polypeptides in chloroplasts
title_exact_search	The production of antimicrobial polypeptides in chloroplasts
title_exact_search_txtP	The production of antimicrobial polypeptides in chloroplasts
title_full	The production of antimicrobial polypeptides in chloroplasts Matthijs Pieter Hoelscher
title_fullStr	The production of antimicrobial polypeptides in chloroplasts Matthijs Pieter Hoelscher
title_full_unstemmed	The production of antimicrobial polypeptides in chloroplasts Matthijs Pieter Hoelscher
title_short	The production of antimicrobial polypeptides in chloroplasts
title_sort	the production of antimicrobial polypeptides in chloroplasts
topic_facet	Hochschulschrift
url	https://d-nb.info/1221382128/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032730632&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT hoelschermatthijspieter theproductionofantimicrobialpolypeptidesinchloroplasts

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