Verfügbarkeit: Flavonoid metabolism

Flavonoid metabolism:

Gespeichert in:

Bibliographische Detailangaben
1. Verfasser:	Stafford, Helen A. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton, Fla. CRC Press 1990
Schlagworte:	Flavonoïdes - Métabolisme Flavonoids > Metabolism Flavonoids > Metabolism > Regulation Flavonoide Stoffwechsel Biosynthese
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	298 S. graph. Darst.
ISBN:	0849360854

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Datensatz im Suchindex

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adam_text	270S-SO-/2 FLAVONOID METABOLISM AUTHOR HELEN A. STAFFORD, PH.D. PROFESSOR BIOLOGY DEPARTMENT REED COLLEGE PORTLAND, OREGON CRC PRESS, INC. BOCA RATON, FLORIDA TABLE OF CONTENTS CHAPTER 1 GENERAL ASPECTS OF CHEMISTRY AND METABOLISM OF FLAVONOIDS 1 I. CHEMISTRY 1 A. BASIC CHEMISTRY 1. GENERAL CHARACTERISTICS OF THE C-15 UNIT 2. HYDROXYLATION PATTERNS OF A-, B-, AND C-RINGS B. BASIC SUBSTITUTIONS 1. HYDROXYLATION 2. METHYLATION 3 3. GLYCOSYLATION 4 4. ACYLATION 4 5. PRENYLATION 5 6. SULFONATION 5 C. STEREOCHEMISTRY 5 1. PROBLEMS WITH R, S CONVENTION FOR THE ABSOLUTE CONFIGURATIONS OF CARBONS 2 AND 3 6 2. SUGGESTED ALTERNATIVE CONVENTIONS FOR PROANTHO- CYANIDINS AND FLAVAN-3-OLS 6 A. ENT SYSTEM FOR MIRROR IMAGE ISOMERS 6 B. A,P DESIGNATION FOR HYDROXYLATION PATTERNS AND INTERFLAVANOID LINKAGES 7 3. 2,3-TRANS AND 2,3-CIS ISOMERS 7 4. EIZ CONVENTION FOR CIS AND TRANS ISOMER S OF PRENYL AND ACYL GROUPS 8 5. SUGAR STEREOCHEMISTRY 8 II. NOMENCLATURE 9 III. MAJOR GROUPS AND OVERALL PATHWAYS 9 IV. CONCLUSION 10 REFERENCES : 12 CHAPTER 2 ORIGIN OF PHENYLPROPANOID (C 6 -C 3 ) AND ACETATE UNITS 15 I. INTRODUCTION 15 II. ORIGIN OF 4-COUMAROYL-COA 15 A. SHIKIMATE/AEROGENATE PATHWAY 15 B. PHENYLPROPANOID PATHWAY 16 1. PHENYLALANINE AMMONIA-LYASE (PAL) 16 2. CINNAMATE-4-HYDROXYLASE 18 3. 4-COUMARATE:COA LIGASE 18 III. ORIGIN OF MALONYL-COA:ACETYL-COA CARBOXYLASE 18 IV. CONCLUSION 19 REFERENCES 20 CHAPTER 3 CHALCONE SYNTHASE AND CHALCONE ISOMERASE: FLAVANONE SYNTHASE 23 I. INTRODUCTION 23 II. CHALCONE SYNTHASE 23 A. ENZYMOLOGY 23 1. SYNTHESIS OF 6 -HYDROXYCHALCONE FOR THE 5-HYDROXYFLAVANONE PATHWAY 23 2. SYNTHESIS OF 6 -DEOXYCHALCONE FOR THE 5-DEOXYFLAVANONE PATHWAY 28 B. GENETIC CONTROL OF CHALCONE SYNTHASE 28 III. CHALCONE ISOMERASE 31 A. ENZYMOLOGY 31 1. 5-HYDROXY PATHWAY VIA 2 ,4,4 ,6 -TETRAHY- DROXYCHALCONE TO (2S ( + )-NARINGENIN 31 2. 5-DEOXY PATHWAY VIA 2 ,4,4 -TRIHYDROXY- CHALCONE (ISOLIQUIRITIGENIN) TO (25)-LIQUIRITIGENIN 32 B. GENETIC CONTROL 33 IV. CONCLUSION 34 REFERENCES 34 CHAPTER 4 BIOSYNTHESIS OF FLAVANONES AND 3-HYDROXYFLAVANONES (DIHYDROFLAVONOLS): THE GRID PATTERN OF BASIC HYDROXYLATIONS OF THE B- AND C-RINGS 39 I. INTRODUCTION 39 II. HYDROXYLASES OF RINGS AND B AND C 40 A. HYDROXYLATION AT THE 3 POSITION IN RING B: 3 -HYDROXYLASE , 40 B. HYDROXYLATION AT THE 3 ,5 POSITIONS IN RING B: VR 3 ,5 -HYDROXYLASE . 42 C. HYDROXYLATION AT THE 3 POSITION IN RING C: FLAVANONE-3-HYDROXYLASE 42 D. SUMMARY OF GENETIC CONTROL OF HYDROXYLATION PATTERNS IN PETUNIA AT THE 3,3 AND 3 ,5 POSITIONS 43 III. ACCUMULATION OF GRID PRECURSORS AS GLYCOSIDES 43 IV. CONCLUSION 43 REFERENCES 44 CHAPTER 5 FLAVONE AND FLAVONOL PATHWAYS 47 I. INTRODUCTION 47 A. RECENT REVIEWS 47 B. DISTRIBUTION BETWEEN TAXONOMIC GROUPS 47 C. SITE OF SYNTHESIS AND OF ACCUMULATION 47 II. CHEMISTRY 47 A. HYDROXYLATION PATTERNS 47 B. GLYCOSYL, METHYL, AND ACYL SUBSTITUTIONS 48 III. BIOSYNTHESIS 51 A. FEEDING AND ISOTOPIC TRACER DATA 51 B. CELL-FREE ENZYMOLOGY 51 1. GENERAL 51 2. FLAVONE SYNTHASE 1 52 3. FLAVONE SYNTHASE II 52 4. FLAVONOL SYNTHASE 54 5. GLYCOSYLATION, METHYLATION, AND ACYLATION 54 A. FLAVONES 54 B. FLAVONOLS 57 IV. REGULATION OF BIOSYNTHETIC PATHWAY 58 A. PHOTOREGULATION 58 B. PLEIOTROPIC EFFECTS OF GENES AFFECTING KAEMPFEROL TRIGLUCOSIDE 59 C. NUTRIENT EFFECTS 59 V. CONCLUSION 59 REFERENCES 59 CHAPTER 6 PATHWAY TO PROANTHOCYANIDINS (CONDENSED TANNINS), FLAVAN-3-OLS, AND UNSUBSTITUTED FLAVANS 63 I. INTRODUCTION 63 A. RECENT GENERAL REVIEWS 63 B. DISTRIBUTION AMONG TAXONOMIC GROUPS .63 C. NOMENCLATURE 63 II. CHEMISTRY OF PROANTHOCYANIDINS, FLAVAN-3-OLS, AND FLAVANS 65 A. BASIC STRUCTURE OF A-, B-, AND C-RINGS 65 B. STEREOCHEMISTRY (2R AND 25 CONFIGURATIONS) 68 C. OLIGOMERIC STRUCTURE: (4»8) AND (4»6) INTERFLAVONOID LINKAGES 70 D. GLYCOSYLATION, PRENYLATION, METHYLATION, AND ESTERIFICATION : 72 E. QUANTITATIVE ASSAYS 72 III. BIOSYNTHESIS 73 A. ISOTOPIC TRACER FEEDING DATA 73 B. CELL-FREE ENZYMOLOGY 75 1. COMMON PATHWAY TO 3-HYDROXYFLAVANONES (DIHYDROFLAVONOLS) 75 2. THE 2,3-TRANS PATHWAY TO FLAVAN-3-OLS AND UNSUBSTITUTED FLAVANS VIA NADPH- DEPENDENT REDUCTASES 77 A. REDUCTION OF 3-HYDROXYFLAVANONES TO 3,4-DIOLS 77 B. REDUCTION OF 2,3-TRANS 3,4-DIOLS TO THEIR RESPECTIVE FLAVAN-3-OLS, (+ )- CATECHIN AND (+ )-GALLOCATECHIN 78 C. REDUCTION OF FLAVANONES TO FLAVAN-4-OLS: APIFEROL AND LUTEOFEROL .. . 79 D. POSTULATED REDUCTION OF FLAVAN-4-OLS TO FLAVANS 79 3. THE 2,3-CIS PATHWAY TO (* )-EPICATECHIN AND (* )-EPIGALLOCATECHIN 80 4. THE CONDENSATION STEP TO PRODUCE DIMERS AND HIGHER OLIGOMERS 82 5. ORIGIN OF THE RARE 2S CONFIGURATION OR ENT FORMS OF FLAVAN-3-OLS AND PROANTHOCYANIDINS 83 IV. COMPARTMENTATION AND REGULATION : 84 A. INTRACELLULAR LOCALIZATION: SITES OF SYNTHESIS AND ACCUMULATION 84 B. REGULATION OF THE 2,3-TRANS AND THE 2,3-CIS PATHWAYS* A SPECULATIVE MODEL 84 C. DEVELOPMENTAL PATTERNS AND THE RATIO OF PROCYANIDIN TO PRODELPHINIDIN (PC:PD) 87 D. ENVIRONMENTAL EFFECTS 88 V. SECONDARY CHANGES AND DEGRADATIVE PATHWAYS 89 VI. GENETICS OF PROANTHOCYANIDIN BIOSYNTHESIS 90 VII. FUNCTION 90 A. POSSIBLE METABOLIC FUNCTION IN PLANTS 90 B. CHEMICAL DEFENSE AGAINST MICROORGANISMS AND HERBIVORES 91 VIII. CONCLUSION . ; 92 REFERENCES 93 CHAPTER 7 ANTHOCYANIDIN-ANTHOCYANIN PATHWAY 101 I. INTRODUCTION 101 II. CHEMISTRY =.,... 102 A. RING MODIFICATIONS: A-, B-, AND C- OF THE AGLYCONES 102 B. FLAVYLIUM STRUCTURE TRANSFORMATIONS AND COPIGMENTATION 102 C. GLYCOSYL-, METHYL-, AND ACYL- GROUPS 104 III. BIOSYNTHESIS 104 A. ISOTOPIC TRACER AND FEEDING DATA 104 B. CELL-FREE ENZYMOLOGY 105 1. STEPS IN COMMON WITH OTHER FLAVONOID PATHWAYS 105 2. STEPS UNIQUE TO ANTHOCYANIN BIOSYNTHESIS 107 A. SYNTHESIS OF THE 3-HYDROXY-FLAVYLIUM NUCLEUS 107 B. SYNTHESIS OF THE 3-DEOXY-FLAVYLIUM NUCLEUS 109 C. GLYCOSYLATION, ACYLATION, AND METHYLATION STEPS 109 C. SITE OF SYNTHESIS AND OF ACCUMULATION: TISSUE AND INTRACELLULAR LOCALIZATION 110 IV. REGULATION OF THE SYNTHETIC PATHWAY 112 A. REGULATION VIA ENZYME COMPLEXES OF LINEAR SEQUENCES ASSOCIATED WITH MEMBRANES 112 B. PHOTOREGULATION AND HORMONAL REGULATION OF ANTHOCYANIN BIOSYNTHESIS 113 C. ACCUMULATION AFTER WOUNDING AND AFTER FUNGAL INFECTION 115 V. DEGRADATIVE PATHWAYS 115 VI. GENETICS 116 A. GENERAL COMMENTS 116 B. CONIFERS 116 C. ANGIOSPERM DICOTS 117 1. ANTIRRHINUM MAJUS 117 2. CALLISTEPHUS CHINENSIS 117 3. GLYCINE MAX 11 7 4. MATTHIOLA INCANA 117 5. PETUNIA HYBRIDA 118 6. PISUM SATIVUM 121 7. SILENE DIOICA 121 D. ANGIOSPERM MONOCOTS 121 1. ZEA MAYS 121 2. HORDEUM VULGARE 125 3. SORGHUM VULGARE 125 VII. CONCLUSION 125 REFERENCES ; 126 CHAPTER 8 ISOFLAVONOID PATHWAYS 133 I. INTRODUCTION 133 A. RECENT REVIEWS 133 B. DISTRIBUTION BETWEEN TAXONOMIC GROUPS 133 II. CHEMISTRY 133 A. RING MODIFICATIONS OF THE AGLYCONES 133 B. MAJOR CHEMICAL GROUPS 134 III. BIOSYNTHESIS 135 A. FEEDING AND ISOTOPIC TRACER DATA 135 B. CELL-FREE ENZYMOLOGY 139 1. CHALCONE SYNTHASES AND ISOMERASES TO FLAVANONES: THE COMMON PATHWAY TO ISOFLAVONOIDS 139 2. THE 5-HYDROXY PATHWAY FROM FLAVANONES TO ISOFLAVONES AND ISOFLAVANONES 140 A. ISOFLAVONE SYNTHASE I TO GENISTEIN VIA A 2,3-ARYL MIGRATION * THE FIRST UNIQUE STEP 140 B. O-METHYLTRANSFERASES 141 C. 2 -HYDROXYLATION 142 D. PRENYLATION 142 3. THE 5-DEOXY PATHWAY TO 5-DEOXY ISOFLAVANONES AND PTEROCARPANS FROM A :- * FLAVANONE 142 A. ISOFLAVONE SYNTHASE II TO DAIDZEIN 142 B. REDUCTION TO ISOFLAVANONES 143 C. METHYLATION AT THE 4 POSITION TO FORM FORMONONETIN 143 D. 3 -HYDROXYLATION, DEMETHYLATION, AND OXIDATIVE RING CLOSURE 143 E. 2 -HYDROXYLATION, REDUCTION, AND CYCLIZATION TO PTEROCARPANS AND 6 -HYDROXYLATION 143 F. PRENYLATION AND CYCLIZATION OF THE PRENYL GROUP 146 G. GLYCOSYLATION AND MALONYLATION 146 H. TERMINAL O-METHYLATION STEP 146 C. SITE OF SYNTHESIS AND ACCUMULATION 146 IV. REGULATION OF THE ISOFLAVONOID PATHWAY 147 A. PHOTOREGULATION 147 B. EFFECTS OF MICROBIAL AND PLANT ELICITORS 148 1. GENERAL ASPECTS 148 2. PISATIN AND MAACKIAIN SYNTHESIS IN PISUM SATIVUM 148 3. GLYCEOLLIN SYNTHESIS IN GLYCINE MAX 148 4. KIEVITONE AND PHASEOLLIN SYNTHESIS IN PHASEOLUS VULGARIS 150 V. DEGRADATIVE PATHWAYS 151 VI. GENETICS 152 VII. FUNCTION 152 A. ANTIMICROBIAL AND INSECT-FEEDING DETERRENT ACTIVITY 152 B. HOST-RECOGNITION SIGNALS 153 C. USES SIGNIFICANT TO HUMANS 153 VIII. CONCLUSION 154 REFERENCES 154 CHAPTER 9 CHALCONES, DIHYDROCHALCONES, AND AURONES 159 I. CHALCONES 159 II. DIHYDROCHALCONES AND THEIR OXIDATION PRODUCTS: PHLORIDZIN AND PHLORETIN 161 III. AURONES 161 IV. CONCLUSION 162 REFERENCES 163 CHAPTER 10 BIFLAVONOIDS 165 I. CHEMISTRY AND ANALYTICAL TECHNIQUES 165 II. TAXONOMIC DISTRIBUTION 166 III. INTRACELLULAR SITE AND FUNCTIONAL ROLE 166 IV. METABOLISM 167 V. CONCLUSION 168 REFERENCES 168 CHAPTER 11 SECONDARY CHANGES: RECYCLING AND DEGRADATION OF FLAVONOIDS 171 I. INTRODUCTION 171 II. SECONDARY CHANGES WITHIN PLANTS 171 A. RECYCLING OF STORAGE GLYCOSIDES: ONE ASPECT OF TURNOVER 171 B. DEGRADATION 173 1. OXIDATION TO AMORPHOUS POLYMERS : 173 2. PARTIAL DEGRADATION AND CATABOLISM TO USABLE PRIMARY PRODUCTS 173 III. CHANGES IN ANIMALS 175 IV. CHANGES BY MICROORGANISMS : 175 V. CONCLUSION 176 REFERENCES 176 CHAPTER 12 COMPETITIVE PATHWAYS IN SECONDARY METABOLISM 179 I. INTRODUCTION 179 II. PHENYLPROANOID PATHWAY: PHENYLPROPANOID ACIDS AND ESTERS 179 III. LIGNIN AND LIGNANS 180 IV. STILBENES AND RELATED COMPOUNDS 183 V. TERPENOIDS 186 VI. CONCLUSION 186 REFERENCES 187 CHAPTER 13 REGULATION 189 I. INTRODUCTION: LEVELS OF CONTROL 189 II. PATHWAYS INDUCIBLE BY EXTERNAL FACTORS 191 A. PHOTOREGULATED PATHWAYS 191 B. STRESS-INDUCED FLAVONOID PATHWAYS 193 1. GENERAL ASPECTS 193 2. WOUNDING AND ETHYLENE PRODUCTION 194 3. INTERACTIONS WITH OTHER ORGANISMS: PATHOGENS AND HERBIVORES 194 4. OSMOTIC STRESS X 197 III. CONSTITUTIVE PATHWAYS 197 IV. ENDOGENOUS REGULATION OF ENZYME ACTIVITY 198 A. INHIBITORS 198 B. REVERSIBLE ENZYME INACTIVATION 199 C. LEVEL OF ENZYME DEGRADATION 199 D. HORMONAL REGULATION AND OTHER CHEMICAL MESSENGERS 200 E. DEVELOPMENTAL AND UNKNOWN FACTORS CONTROLLING PHENOTYPIC EXPRESSION 201 V. COMPARTMENTATION 202 A. INTRACELLULAR LOCALIZATION OF FLAVONOID PATHWAY ENZYMES AND THEIR END PRODUCTS 202 B. INTERTISSUE LOCALIZATION 205 C. TRANSPORT PROBLEMS WITHIN AND BETWEEN CELLS 206 VI. REGULATION BY ORGANIZATION OF ENZYMES IN PATHWAYS 208 A. RELATIONSHIPS BETWEEN PRIMARY AND SECONDARY METABOLISM 208 B. METABOLIC GRIDS AND THEIR SIGNIFICANCE 209 C. LINEAR SEQUENCES OF CYTOSOLIC AND MEMBRANE LOCALIZED ENZYMES .* 210 1. POLYMORPHISM OF FLAVONOID ENZYMES 210 2. SPECULATIONS ABOUT MULTIENZYME COMPLEXES AS AGGREGATES OR MEMBRANE-ASSOCIATED SEQUENCES 210 VII. CONCLUSION 216 REFERENCES 216 CHAPTER 14 IMPACT OF METHODOLOGY ON FLAVONOID METABOLISM 225 I. INTRODUCTION 225 II. BASIC ANALYTICAL TECHNIQUES 227 III. CELL CULTURE 229 A. COMPARISON WITH PRODUCTS OF ORIGINAL INTACT TISSUE 229 B. VARIABILITY AND INSTABILITY: SOMATIC GENETICS 230 C. CASE HISTORIES IN FLAVONOID METABOLISM 230 D. ADVANTAGES AND DISADVANTAGES OF TISSUE CULTURE 231 IV. BIOCHEMICAL AND MOLECULAR GENETICS, MUTANTS, GENETIC ENGINEERING, AND TRANSPOSABLE GENETIC ELEMENTS 232 V. CONCLUSION 234 REFERENCES 235 CHAPTER 15 METABOLIC AND EVOLUTIONARY ASPECTS OF THE BASIC FUNCTION OF FLAVONOIDS :.... 239 I. FUNCTIONS 239 A. GENERAL ASPECTS 239 B. INTERNAL REGULATORY AGENTS IN PLANTS 239 1. ANTIOXIDANTS, INHIBITORS, AND ACTIVATORS 239 2. NUCLEIC ACID STRAND SCISSION AGENTS 240 3. POTENTIAL DEVELOPMENTAL SIGNALS 241 C. INTERACTION WITH EXTERNAL AGENTS 241 1. PROTECTION AGAINST UV IRRADIATION 241 2. CHEMICAL DEFENSE AGAINST HERBIVORES AND PATHOGENS 241 A. GENERAL ASPECTS 241 B. CONSTITUTIVE DEFENSES 242 C. INDUCIBLE DEFENSES 243 3. CHEMICAL SIGNALS AS ATTRACTANTS 244 A. POLLINATION AND SEED DISPERSAL : 244 B. RECOGNITION SIGNALS: FRIEND VS. FOE 245 D. FATE OF DIETARY FLAVONOIDS IN ANIMALS AND FLAVONOIDS OF MEDICAL INTEREST 247 II. DISTRIBUTION AND EVOLUTIONARY ASPECTS 248 A. CONDENSATION PRODUCTS WITH FEWER THAN THREE ACETATE UNITS INCORPORATED 248 B. CONDENSATION PRODUCTS WITH THREE ACETATE UNITS INCORPORATED: C, 5 FLAVONOIDS 248 1. DISTRIBUTION IN PREVASCULAR PLANTS 248 2. DISTRIBUTION IN VASCULAR PLANTS 249 3. EVOLUTIONARY TRENDS 250 4. HYPOTHETICAL SUMMARY DIAGRAM 252 III. CONCLUSION 254 REFERENCES 254 CHAPTER 16 GENERAL HISTORY OF STUDIES OF FLAVONOID METABOLISM 261 I. PRE-1925 CONCEPTS 261 II. 1925 VIEW OF ONSLOW AND OTHER SCIENTISTS: ORIGIN OF BIOCHEMICAL GENETICS OF FLAVONOIDS 262 III. THE 1940 VIEW 263 IV. THE FLAVANOID FRAUD OF 1940 TO 1955 264 V. POST 1945: ERA OF RADIOACTIVE TRACER STUDIES AND CELL-FREE ENZYMOLOGY 264 VI. CONCLUSION 267 REFERENCES 267 INDEX 269
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id	DE-604.BV004157109
illustrated	Illustrated
indexdate	2024-07-09T16:09:12Z
institution	BVB
isbn	0849360854
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-002592731
oclc_num	20094225
open_access_boolean
owner	DE-12 DE-355 DE-BY-UBR DE-188
owner_facet	DE-12 DE-355 DE-BY-UBR DE-188
physical	298 S. graph. Darst.
publishDate	1990
publishDateSearch	1990
publishDateSort	1990
publisher	CRC Press
record_format	marc
spelling	Stafford, Helen A. Verfasser aut Flavonoid metabolism author: Helen A. Stafford Boca Raton, Fla. CRC Press 1990 298 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Literaturangaben Flavonoïdes - Métabolisme Flavonoids Metabolism Flavonoids Metabolism Regulation Flavonoide (DE-588)4154585-0 gnd rswk-swf Stoffwechsel (DE-588)4057699-1 gnd rswk-swf Biosynthese (DE-588)4006902-3 gnd rswk-swf Flavonoide (DE-588)4154585-0 s Stoffwechsel (DE-588)4057699-1 s DE-604 Biosynthese (DE-588)4006902-3 s GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=002592731&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Stafford, Helen A. Flavonoid metabolism Flavonoïdes - Métabolisme Flavonoids Metabolism Flavonoids Metabolism Regulation Flavonoide (DE-588)4154585-0 gnd Stoffwechsel (DE-588)4057699-1 gnd Biosynthese (DE-588)4006902-3 gnd
subject_GND	(DE-588)4154585-0 (DE-588)4057699-1 (DE-588)4006902-3
title	Flavonoid metabolism
title_auth	Flavonoid metabolism
title_exact_search	Flavonoid metabolism
title_full	Flavonoid metabolism author: Helen A. Stafford
title_fullStr	Flavonoid metabolism author: Helen A. Stafford
title_full_unstemmed	Flavonoid metabolism author: Helen A. Stafford
title_short	Flavonoid metabolism
title_sort	flavonoid metabolism
topic	Flavonoïdes - Métabolisme Flavonoids Metabolism Flavonoids Metabolism Regulation Flavonoide (DE-588)4154585-0 gnd Stoffwechsel (DE-588)4057699-1 gnd Biosynthese (DE-588)4006902-3 gnd
topic_facet	Flavonoïdes - Métabolisme Flavonoids Metabolism Flavonoids Metabolism Regulation Flavonoide Stoffwechsel Biosynthese
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=002592731&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT staffordhelena flavonoidmetabolism

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MARC

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