Fructan exohydrolases in corn search for functions

Fructan exohydrolases in corn search for functions

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1. Verfasser: Zhao, Hongbo (VerfasserIn)
Format: Abschlussarbeit Buch
Sprache:English
Veröffentlicht: 2014
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Hochschulschrift
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adam_text FRACTAL! EXOHYDROLASES IN CORN - SEARCH FOR FUNCTIONS REFEREES: PROFESSOR DR. THOMAS RAUSCH PROFESSOR DR. RUDIGER HELL HTTP://D-NB.INFO/1054939306 TABLE OF CONTENTS TABLE OF CONTENTS 1. SUMMARY/ZUSAMMENFASSUNG 1 1.1 SUMMARY (ENGLISH) 1 1.2 ZUSAMMENFASSUNG (DEUTSCH) 3 2. INTRODUCTION 5 2.1 MAIZE AS A MODEL.................................................................................................. 5 2.2 SOURCE AND SINK...................................................................................................... 5 2.2.1 SOURCE-SINK RELATIONS 5 2.2.2 SOURCE-SINK REGULATION FACTORS 6 2 J SUGAR...................................................................................................................... 7 2.3.1 SUGAR SENSING AND SIGNALING 7 2.3.2 SUGAR TRANSPORT 8 2.3.3 SUCROSE TRANSPORT IN THE VACUOLE 9 2.4 SUCROSE SYNTHESIS AND HYDROLYSIS........................................................................ 9 2.4.1 SUCROSE SYNTHASE (SUSY) 10 2.4.2 INVERTASE 12 2.5 PHYSIOLOGICAL ROLES OF ACID INVERTASES................................................................. 15 2.5.1 CWI IS ESSENTIAL FOR SUCROSE PARTITIONING, SEED AND FRUIT DEVELOPMENT 15 2.5.2 VI AS A KEY MODULATOR FOR HEXOSE ACCUMULATION AND CELL EXPENSION 16 2.6 REGULATION OF INVERTASES...................................................................................... 17 2.6.1 ENVIRONMENTAL STIMULI 17 2.6.2HORMONES 18 2.6.3 SUGARS 18 2.6.4 WOUNDING AND PATHOGENS 18 2.7 PROTEINACEOUS INHIBITORS OF PLANT INVERTASES.................................................... 19 2.7.1 STRUCTURAL FEATURES OF INVERTASE INHIBITOR PROTEINS 20 2.7.2 EXPRESSION AND PHYSIOLOGICAL ROLES OF INVERTASE INHIBITORS 21 2.7.3 REGULATION OF INVERTASE INHIBITORS 23 2.8FRUCTANS................................................................................................................ 23 2.8.1 STRUCTURE AND OCCURRENCE OF FRUCTANS IN PLANTS AND BACTERIA 23 2.8.2 FUNCTIONS OF FRUCTANS IN PLANTS 25 2.8.3 APPLICATIONS OF FRUCTANS 25 2.9 FRUCTAN SYNTHESIS AND HYDROLYSIS...................................................................... 25 2.9.1 FRUCTAN SYNTHESIS 25 2.9.2 FRUCTAN HYDROLYSIS 27 2.10 FUNCTIONS OF FRUCTAN EXOHYDROLASES IN PLANT................................................... 28 2.11 REGULATION OF FRUCTAN EXOHYDROLASES................................................................ 28 2.12 STRUCTURE AND EVOLUTION BETWEEN INVERTASES, FRUCTAN EXOHYDROLASES AND FRUCTAN BIOSYNTHETIC ENZYMES........................................................................ 29 3 RESEARCH AIMS 31 I TABLE OF CONTENTS 4 RESULTS 32 4.1 MAKE IS NON FRUCTAN PLANT BUT WITH FEH ENZYME........................................... 32 4.1.1 CARBOHYDRATE ANALYSIS IN SOURCE AND SINK PART OF MAIZE LEAF. 32 4.1.2 CARBOHYDRATE ANALYSIS IN OTHER TISSUES IN MAIZE 33 4.1.3 IN VITRO SYNTHESIS OF FRUCTAN TRISACCHARIDES 34 4.1.4 FEH ACTIVITIES IN DIFFERENT MAIZE TISSUES 35 4.2 MAIZE HAS FEHS BUT NO FBES............................................................................. 35 4.2.1 CLONING, SEQUENCE ALIGNMENT AND PHYLOGENETIC ANALYSIS OF CWI/ FEHS 35 4.2.2 ENZYME CHARACTERIZATION 42 4.2.3 ECTOPIC EXPRESSION ENZYMES IN NICOTIANABENTHAMIANA. 49 4.2.4 SUBCELLULAR LOCALIZATION OF MAIZE FEHS 51 4.2.5 TRANSCRIPT LEVELS OF MAIZE FEHS IN DIFFERENT TISSUES 54 4.2.6 DROUGHT, ABA AND COLD REGULATE THE MAIZE FEHS IN TRANSCRIPT LEVEL 54 43 FEHS HYDROLYZE INVERTASE-MADE FRUCTANS (KESTOSE)......................................... 56 4.4 IN CORN, 6&1-FEH EXPRESSION IS INDUCED BY LEVAN........................................... 56 4.4.1 EXOGENOUS LEVAN AFFECT MAIZE FEHS EXPRESSION 56 4.4.2 ECTOPICALLY EXPRESSING ZM-6&1-FEH1 TRANSGENIC ARABIDOPSIS LINES DO NOT ALLEVIATE THE INFECTION OF PSEUDOMONAS SYRINGAE PV. TOMATO DC3000. 57 4.5 NOVEL INVERTASE INHIBITORS IN MAIZE................................................................... 59 4.5.1 CLONING CDNAS ENCODING THE INVERTASE INHIBITOR, SEQUENCE ALIGNMENT AND PHYLOGENETIC ANALYSIS 59 4.5.2 FUNCTIONAL ASSAY OF ZM-INVINHS 62 4.5.3 SUBCELLULAR LOCALIZATION OF ZM-INVINHS 66 4.5.4 TRANSCRIPT LEVEL OF ZM-INVINH4 UNDER DROUGHT, ABA AND COLD STRESS 68 4.6 FEH ENZYMES ACTIVATE INVERTASES BY COMPETING FOR INVERTASE INHIBITOR BINDING.................................................................................................................. 69 4.6.1 FEHS PHYSICALLY INTERACT WITH INVERTASE INHIBITORS 69 4.6.2 MAIZE INVERTASE INHIBITORS AFFECT FEHS ACTIVITY 72 4.6.3 ZM-6&1-FEH2 TRANSGENIC ARABIDOPSIS LINES ALLEVIATE THE EFFECT OF ABA INDUCED BY AT-C/VIF 1 72 5 DISCUSSION 76 5.1 PROPERTIES AND LOCALIZATION OF PLANT FEHS........................................................ 76 5.1.1 FEH ACTIVITIES IN MAIZE EXTRACTS 76 5.1.2 HETEROLOGOUS EXPRESSION, PURIFICATION AND IDENTIFICATION OF FEHS IN N. BENTHAMIANA LEAVES 76 5.1.3 HETEROLOGOUS EXPRESSION, PURIFICATION AND IDENTIFICATION OF FEHS IN PICHIA PAS TOR IS 77 5.2 PLANT FEHS ARE DERIVED FROM CELL WALL INVERTASES........................................... 78 5J MAIZE IS A FRUCTOOLIGOSACCHARIDE-PLANT BUT NOT A FRUCTAN PLANT................... 80 5.3.1 FRUCTOOLIGOSACCHARIDES IN MAIZE 80 II TABLE OF CONTENTS 5.3.2 FUNCTIONS OF MAIZE FRUCTOOLIGOSACCHARIDES 81 5.3.3 MAIZE LACKS FRUCTAN BIOSYNTHESIS ENZYMES FOR FRUCTAN CHAIN ELONGATION 82 5.4 REGULATION OF FEHS IN NON FRUCTAN PLANTS OR IN MAIZE.................................... 82 5.4.1 REGULATION OF MAIZE FEHS EXPRESSION 82 5.4.2 MAIZE FEHS ARE REGULATED ON POST-TRANSCRIPTIONAL LEVEL? 84 5.4.3 MAIZE FEHS ARE REGULATED ON POST-TRANSLATIONAL LEVEL 85 5.5 FUNCTIONS OF FEHS IN MAIZE................................................................................ 88 5.5.1 SIGNALING? 88 5.5.2 PATHOGEN DEFENCE OR STABILIZING THE SYMBIOSIS 88 5.5.3 FEH INVOLVED IN INVERTASE-MEDIATED SUCROSE DEGRADATION AND SIGNALING IN SOURCE AND SINK 91 5.5.4 OTHER FUNCTIONS 93 6. MATERIAL AND METHODS 94 6.1 PLANT MATERIAL AND CULTIVATION............................................................................ 94 6.1.1 ZEA MAYS. 94 6.1.2 NICOTIANA BENTHAMICMA. 94 6.1.3 ALLIUM CEPA. 94 6.1.4 ARABIDOPSIS THALIANA. 94 6.2 MICROBIOLOGICAL TECHNIQUES................................................................................. 94 6.2.1 BACTERIAL STRAINS 94 6.2.2 MEDIA AND ANTIBIOTICS 95 6.2.3 PREPARATION OF ELECTROCOMPETENT BACTERIAL AND YEAST CELLS 95 6.2.4 TRANSFORMATION OF BACTERIAL AND YEAST CELLS VIA ELECTROPORATION 96 6.2.5 PREPARATION OF GLYCEROL STOCKS 96 63 NUCLEIC ACID TECHNIQUES....................................................................................... 96 6.3.1 AGAROSE GELS 96 6.3.2 POLYACRYLAMIDE GELS 96 6.3.3 EXTRACTION OF GENOMIC DNA FOR CLONING 97 6.3.4 RNA EXTRACTION 97 6.3.5 SEPARATION OF RNA BY AGAROSE GEL ELECTROPHORESIS 98 6.3.6 DETERMINATION OF NUCLEIC ACID CONCENTRATION 98 6.3.7 REVERSE TRANSCRIPTION 98 6.3.8 VECTORS 98 6.3.9 OLIGONUCLEOTIDES 99 6.3.10 POLYMERASE CHAIN REACTION (PCR) 101 6.3.11 QUANTITATIVE REAL TIME PCR 102 6.3.12 GEL EXTRACTION AND PCR PURIFICATION 103 6.3.13 ISOLATION OF PLASMID DNA FROM BACTERIAL CULTURE 103 6.3.14 DNA SEQUENCING 104 6.4 CLONING TECHNIQUES............................................................................................ 104 6.4.1 T/A CLONING OF PCR PRODUCTS 104 6.4.2 CLONING USING RESTRICTION ENZYME DIGESTION 104 6.4.3 CLONING USING THE GATEWAY SYSTEM 104 HI TABLE OF CONTENTS 6.5 PROTEIN TECHNIQUES............................................................................................. 104 6.5.1 PROTEIN OVEREXPRESSION AND PURIFICATION IN E. CO/I. 104 6.5.2 PROTEIN OVEREXPRESSION AND PURIFICATION IN PICHIAPASTORIS. 105 6.5.3 EXTRACTION OF PROTEINS FROM NICOTIANA BENTHAMIANA LEAVES AND ARABIDOPSIS THALIANA. 106 6.5.4 EXTRACTION OF SOLUBLE AND CELL WALL PROTEINS FROM MAIZE 106 6.5.5 CARBOHYDRATE EXTRACTION FOR HPAEC-PAD 106 6.5.6 PME EXTRACTION 107 6.5.7 SDS-POLYACRYLAMIDE GEL ELECTROPHORESIS 107 6.5.8 COOMASIE STAINING 107 6.5.9 SILVER STAINING 107 6.5.10 IMMUNOBLOTTING 108 6.5.11 DIFFERENTIAL CENTRIFUGATION AND SALT ELUTION 108 6.5.12 IMMUNOPRECIPITATION 109 6.6 ENZYME ACTIVITY ASSAYS...................................................................................... 109 6.6.1 MEASUREMENT OF SOLUBLE AND CELL-WALL BOUND FEH OR INVERTASE ACTIVITIES. 109 6.6.2 FUNCTIONAL ASSAY OF INVERTASE INHIBITOR RECOMBINANT PROTEINS 110 6.6.3 FUNCTIONAL ASSAY OF FEH RECOMBINANT PROTEINS 110 6.6.4 CARBOHYDRATE ANALYSIS VIA HPAEC-PAD 110 6.6.5 PME ACTIVITY MEASUREMENT ILL 6.7 MICROSCOPY......................................................................................................... 112 6.7.1 FLUORESCENCE MICROSCOPY. 112 6.7.2 CONFOCAL LASER SCANNING MICROSCOPY. 112 6.8 PLANT TRANSFORMATION......................................................................................... 112 6.8.1 TRANSIENT EXPRESSION BY AGROBACTERIA LEAF INFILTRATION 112 6.8.2 TRANSIENT EXPRESSION BY PARTICLE GUN BOMBARDMENT 113 6.8.3 STABLE TRANSFORMATION BY FLORAL DIP 113 7 ABBREVIATIONS 114 8 BIBLIOGRAPHY. 117 9 ACKNOLOWLEDGEMENTS 147 IV
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Fructan exohydrolases in corn search for functions
subject_GND (DE-588)4113937-9
title Fructan exohydrolases in corn search for functions
title_auth Fructan exohydrolases in corn search for functions
title_exact_search Fructan exohydrolases in corn search for functions
title_full Fructan exohydrolases in corn search for functions [presented by Hongbo Zhao]
title_fullStr Fructan exohydrolases in corn search for functions [presented by Hongbo Zhao]
title_full_unstemmed Fructan exohydrolases in corn search for functions [presented by Hongbo Zhao]
title_short Fructan exohydrolases in corn
title_sort fructan exohydrolases in corn search for functions
title_sub search for functions
topic_facet Hochschulschrift
url http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027475645&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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