Biochemistry and molecular biology of plant hormones:
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Amsterdam [u.a.]
Elsevier
1999
|
| Ausgabe: | 1. ed. |
| Schriftenreihe: | New comprehensive biochemistry
33 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXII, 541 S. |
| ISBN: | 0444898255 |
Internformat
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| 245 | 1 | 0 | |a Biochemistry and molecular biology of plant hormones |c ed.: P. J. J. Hooykaas ... |
| 250 | |a 1. ed. | ||
| 264 | 1 | |a Amsterdam [u.a.] |b Elsevier |c 1999 | |
| 300 | |a XXII, 541 S. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 1 | |a New comprehensive biochemistry |v 33 | |
| 650 | 4 | |a Plantes - Hormones | |
| 650 | 4 | |a Plant Growth Regulators | |
| 650 | 4 | |a Plant hormones | |
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Datensatz im Suchindex
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|---|---|
| adam_text | Contents
Preface v
List of contributors vii
Other volumes in the series xxi
I Introduction and Methodology
Chapter 1. Introduction: Nature, occurrence and functioning of plant hormones
Robert E. Cleland 3
1. What is a plant hormone? 3
2. The history of plant hormones 4
3. Methods for determining the biological roles of plant hormones 5
3.1. Methods 5
3.2. Cautions and problems 6
4. The occurrence and role of individual hormones 7
4.1. Hormone groups 7
4.2. Auxins x
4.3. Cytokinins 10
4.4. Gibbcrcllins 12
4.5. Hthylene 13
4.6. Abseisic acid 15
4.7. Other hormones Id
References 19
Chapter 2. Physico chemical methods of plant hormone analysis
Alan Crozier and Thomas Moritz 23
1. Introduction 23
2. The analytical problem 24
3. Extraction 25
xi
xii
4. Sample purification 27
4.1. Solvent partitioning 27
4.2. Polyvinylpolypyrrolidone 27
4.3. Solid phase extraction 28
4.4. Immunoaffinity chromatography 29
4.5. High performance liquid chromatography 29
5. Derivatization 29
5.1. Methylation 29
5.2. Trimethylsilylation 31
5.3. Permethylation 31
5.4. Other derivatives 31
6. Analytical methods 32
6.1. Gas chromatography selected ion monitoring 33
6.2. High performance liquid chromatography analysis of indole 3 acetic acid 35
6.3. High performance liquid chromatography mass spectrometry 40
7. Metabolic studies 50
8. Concluding comments 53
9. Recent developments 54
References 56
Chapter 3. Immunological methods in plant hormone research
Michael H. Beale 61
1. Introduction 61
2. Preparation and characteristics of antibodies 62
2.1. General considerations 62
2.2. Auxins 63
2.3. Cytokinins 64
2.4. Abscisic acid 67
2.5. Gibberellins 69
2.6. Brassinosteroids 72
2.7. Jasmonic acid 73
2.8. Fusicoccin 74
3. Immunoassays 74
3.1. General principles 74
3.2. Validation of assays 76
4. Immunoaffinity chromatography 77
5. Immunolocalisation 79
6. Anti idiotypes and molecular mimicry 80
7. Immunomodulation of plant hormone levels 81
8. Conclusions 82
Acknowledgement 83
References 84
Chapter 4. Structure activity relationships of plant growth regulators
Gerard F. Katekar. 89
1. Introduction 89
xiii
2. Auxins 90
2.1. Auxin structure activity 90
2.2. Conformational analysis 92
2.3. Anti auxins 92
3. Abscisic acid 93
3.1. Structure activity 93
3.2. Receptor requirements 94
4. Cytokinins 95
4.1. Structure activity 95
4.2. Competitive inhibitors 97
5. Gibberellins 97
5.1. Structure activity 97
6. Ethylene 100
6.1. Structure activity 100
6.2. A receptor probe 102
7. Brassinolides 102
7.1. Structure activity 102
7.2. Receptor considerations 103
8. Jasmonic acid and related molecules 103
8.1. Properties 103
8.2. Structure activity 104
8.3. Tuberonic acid 104
9. Fusicoccin 105
9.1. Structure activity 105
10. Molecules which bind to the NPA receptor 106
10.1. Phytotropins 106
10.2. Other molecules 108
10.3. Conclusions 108
References 108
II Control of Hormone Synthesis and Metabolism
Chapter 5. Auxins
Janet P. Slovin, Robert S. Bandurski and Jerry D. Cohen . . 115
1. Inputs to and outputs from the IAA pool 115
2. Auxin biosynthesis 116
2.1. General What is meant by synthesis? 116
2.2. De novo aromatic synthesis 117
2.3. Conversion of tryptophan to IAA 118
2.4. Pathways not involving tryptophan 120
2.5. 4 Chloroindole 3 acetic acid and indole 3 butyric acid in plants 121
3. Metabolism of IAA 122
3.1. The conjugates of IAA 122
3.2. Conjugation of IAA 125
3.3. Hydrolysis of IAA conjugates 126
xiv
3.4. IAA oxidation 128
3.5. Oxidation of IAA conjugates 131
4. Microbial pathways for IAA biosynthesis 132
5. Environmental and genetic control of IAA metabolism 133
5.1. Tropic curvature 133
5.2. Vascular development 133
5.3. Genetics of auxin metabolism 134
References 135
Chapter 6. Control of cytokinin biosynthesis and metabolism
Eva Zazimalovd, Alena Brezinovd, Vaclav Motyka and Miroslav Kaminek . ... 141
1. Introduction 141
2. Cytokinin biosynthesis 141
2.1. De novo formation of isoprenoid and isoprenoid derived cytokinins 143
2.2. Formation of aromatic cytokinins 147
3. Cytokinin metabolism 147
3.1. Reactions resulting in N6 side chain modification 147
3.2. Reactions resulting in the modification of the purine ring 150
4. Mechanisms of regulation of cytokinin metabolism in plants 152
4.1. Control of cytokinin metabolism in plant cell 152
5. Conclusion 155
Acknowledgements 155
References 155
Chapter 7. Regulation of gibberellin biosynthesis
Peter Hedden 161
1. Introduction 161
2. Gibberellin biosynthesis 161
2.1. Pathways 162
2.2. Enzymes 166
3. Genetic control of biosynthesis 168
4. Chemical control of biosynthesis 171
5. Developmental control 172
5.1. Gibberellin biosynthesis and fruit development 173
5.2. Seed germination and seeding growth 175
6. Feed back regulation 176
7. Environmental control 178
7.1. Control of GA metabolism by light 178
7.2. Control of GA metabolism by temperature 180
8. Conjugation 181
9. Summary and future prospects 181
Acknowledgements 182
References 182
XV
Chapter 8. Abscisic acid metabolism and its regulation
JanA.D. Zeevaart 189
1. Introduction 189
2. Chemistry and measurement 190
3. Biosynthesis 191
3.1. General aspects 191
3.2. Evidence for the indirect pathway 191
3.3. Xanthophylls to xanthoxin 193
3.4. Xanthoxin to abscisic acid 195
4. Catabolism 197
4.1. Catabolism of abscisic acid 197
4.2. Catabolism of ( ) abscisic acid 199
5. Regulation of biosynthesis 201
6. Regulation of abscisic catabolism 202
7. Conclusions and prospects 203
Acknowledgements 203
References 203
Chapter 9. Control of ethylene synthesis and metabolism
Hidemasa Imaseki 209
1. Ethylene 209
1.1. Biosynthesis 210
1.2. ACC synthase 214
1.3. ACC oxidase (ethylene forming enzyme, EFE) 226
1.4. Metabolism of ethylene and ACC 230
1.5. Regulation of ethylene biosynthesis 232
1.6. Genetic engineering of ethylene biosynthesis 240
References 241
Chapter 10. Oligosaccharins as regulators of plant growth
Stephen C. Fry 247
1. Introduction 247
2. The polysaccharides from which oligosaccharins are derived 248
2.1. Xyloglucan 248
2.2. Pectic polysaccharides 249
3. Xyloglucan derived oligosaccharides (XGOs) 249
3.1. Growth inhibiting effects of xyloglucan oligosaccharides 249
3.2. Growth promoting effects of xyloglucan fragments 258
4. Pectic oligosaccharides 261
4.1. Simple oligogalacturonides 261
4.2. Regulatory effects of other pectic fragments 262
5. Prospect 264
Acknowledgements 264
References 264
xvi
Chapter 11. Jasmonic acid and related compounds
Teruhiko Yoshihara 267 ;
1. Occurrence 267
2. Biosynthesis 270
3. Metabolism 273
References 275
Chapter 12. Brassinosteroids
TakaoYokota 277
1. Introduction 277
2. Structural and biosynthetic relationships of BRs to sterols 278
3. Biosynthesis of sterols 281
4. Biosynthesis of brassinosteroids 281
4.1. Conversion of campesterol to campestanol 282
4.2. The early C6 oxidation pathway 284
4.3. The late C6 oxidation pathway 284
4.4. Conversion of castasterone to brassinolide 285
4.5. Regulation of brassinosteroid biosynthesis 285
5. Metabolism of brassinosteroids 286
5.1. Metabolism of castasterone, brassinolide, 24 epibrassinolide, 22,23,24 epibrassinolide in
plants or explants 286
5.2. Metabolism of 24 epicastasterone and 24 epibrassinolide in cultured cells of tomato and
Ornithopus sativus 288
6. Inhibitors of the biosynthesis and metabolism of brassinosteroids 290
References 291
Chapter 13. Salicylic acid biosynthesis
Marianne C. Verberne, Retno A. Budi Muljono and Robert Verpoorte 295
1. Introduction 295 ,
2. Salicylic acid biosynthesis along the phenylpropanoid pathway 297
2.1. Biosynthetic enzymes 300
3. Salicylic acid biosynthesis along the chorismate/isochorismate pathway 301
3.1. Biosynthetic pathway of SA 302
3.2. Biosynthetic pathway of 2,3 DHBA 304
3.3. Menaquinone biosynthesis 306
3.4. Regulation of SA and 2,3 DHBA biosynthesis 308
4. Conclusion 309
References 310
III Hormone Perception and Transduction
Chapter 14. Molecular characteristics and cellular roles of guanine nucleotide
binding proteins in plant cells
PA. Millner and T.H. Carr 315
1. Signal transducing GTPases within animal and fungal cells 315
1.1. Major subclasses 315
1.2. G protein linked receptors and effectors 318
xvii
2. Evidence for plant G proteins 319
2.1. Effects of GTP analogues 319
2.2. Cholera and pertussis toxins 320
2.3. Immunological evidence 321
2.4. Isolation and cloning of plant G proteins 321
3. G protein coupled receptors within plants 326
4. G protein regulated effectors in plants 327
5. Nucleoside diphosphate kinases 328
Acknowledgements 331
References 331
Chapter 15. Hormonal regulation of ion transporters: the guard cell system
S.M. Assmann and F. Armstrong 337
1. Introduction 337
2. Ion transport and its measurement 337
3. Summary of ionic events associated with stomatal movements 340
3.1. K* channels and stomatal movement 341
3.2. Anion transporters in stomatal movement 341
3.3. Energising transporters and the control of Vm in stomatal movement 342
3.4. Ion transport at the tonoplast and its integration in stomatal function 342
4. Hormonal regulation of guard cell ion transport 345
4.1. Abscisic acid 345
4.2. Auxins 353
4.3. Other hormones: gibberellins, cytokinins, methyl jasmonate and ethylene 355
5. Conclusions and future prospects 357
Acknowledgements 357
References 357
Chapter 16. Hormone cytoskeleton interactions in plant cells
Frautiset Baluska, Dieter Volkmann and Peter W. Barlow 363
1. Introduction 363
2. Auxins and cytokinins 365
2.1. Auxins 365
2.2. Cytokinins 374
2.3. Interactions of auxins and cytokinins with the actin cytoskeleton 375
3. Gibberellins and brassinosteroids 376
4. Abscisic acid and ethylene 380
4.1. Abscisic acid 380
4.2. Ethylene 381
5. Other plant hormones and growth regulators 383
6. Provisional conclusions 384
References 386
xviii
Chapter 17. Molecular approaches to study plant hormone signalling
Remko Offringa and Paul Hooykaas 391
1. Introduction 391
2. The mutant approach 391
2.1. Mutants that are insensitive or resistant to plant hormones 395
2.2. Hormone (independent) phenotypes 397
2.3. Suppressors of existing mutants 398
2.4. Hormone responsive promoters as tools 398
3. Other approaches 402
3.1. Identification through homology 402
3.2. Identification of transcription factors mediating the hormone response 403
3.3. Yeast as a tool to study plant signal transduction components 403
4. Conclusion 406
Acknowledgements 407
References 407
Chapter 18. Auxin perception and signal transduction
MarkEstelle 411
1. Introduction 411
2. Rapid auxin responses 411
3. Auxin receptors 412
4. Signal transduction 414
5. Genetic studies of auxin response 415
6. Concluding remarks 419
Acknowledgements 419
References 419
Chapter 19. Auxin regulated genes and promoters
Tom J. Guilfoyle 423
1. Introduction 423
2. Auxin responsive mRNAs 424
2.1. Aux/IAA mRNAs 425
2.2. GST mRNAs 428
2.3. SAUR mRNAs 430
2.4. GH3 mRNAs 431
2.5. ACC synthase mRNAs 431
2.6. Other auxin responsive up regulated mRNAs in plants 432
2.7. Auxin responsive up regulated mRNAs from pathogen genes 433
2.8. Auxin responsive down regulated mRNAs in plants 434
3. Organ and tissue expression patterns of auxin responsive genes 435
3.1. Northern blot analysis 435
3.2. Tissue print and in situ hybridization analyses 435
3.3. Promoter reporter gene analyses 436
xix
4. Promoters of auxin responsive genes 438
4.1. Conserved sequence motifs found in auxin responsive promoters 438
4.2. Functional analysis of ocs/as 1 AuxREs 440
4.3. Functional analysis of natural composite AuxREs 443
4.4. Functional analysis of other natural promoter fragments containing AuxREs 446
5. Synthetic composite AuxREs 447
6. Simple AuxREs 448
7. TGTCTC AuxRE transcription factors 449
8. Other transcription factors that bind c« elements in auxin responsive promoters 451
9. Perspectus 452
Acknowledgements 453
References 453
Chapter 20. Cytokinin perception and signal transduction
Jean Denis Faure and Stephen H. Howell 461
1. Introduction 461
2. Cytokinin mutants 463
2.1. Cytokinin overproduction or hyper responsive mutants 463
2.2. Mutants that fail to respond to cytokinin 465
3. Cytokinin effects on gene expression 466
4. Cytokinin binding proteins 467
5. Calcium and cytokinin signaling 469
6. Protein phosphorylation and cytokinin signaling 471
References 472
Chapter 21. Perception and transduction of ethylene
M.A. Hall A.R. Smith, G.V. Novikova and I.E. Moshkov 475
1. Introduction 475
2. Ethylene perception 475
2.1. Biochemical and physiological studies 475
2.2. Molecular genetics 479
3. Transduction mechanisms 4X1
3.1. Biochemical and physiological studies 4X1
3.2. Molecular genetics 4X5
4. Ethylene perception and transduction: a synthesis 4X5
References 489
Chapter 22. Abscisic acid perception and transduction
Peter K. Busk, Antoni Borrell, Dimosthenis Kizis and Montserrat Pages 491
1. Introduction 491
2. The biological role of ABA 491
XV111
Chapter 17. Molecular approaches to study plant hormone signalling
Remko Offringa and Paul Hooykaas 391
1. Introduction 391
2. The mutant approach 391
2.1. Mutants that are insensitive or resistant to plant hormones 395
2.2. Hormone (independent) phenotypes 397
2.3. Suppressors of existing mutants 398
2.4. Hormone responsive promoters as tools 398
3. Other approaches 402
3.1. Identification through homology 402
3.2. Identification of transcription factors mediating the hormone response 403
3.3. Yeast as a tool to study plant signal transduction components 403
4. Conclusion 406
Acknowledgements 407
References 407
Chapter 18. Auxin perception and signal transduction
MarkEstelle 411
1. Introduction 411
2. Rapid auxin responses 411
3. Auxin receptors 412
4. Signal transduction 414
5. Genetic studies of auxin response 415
6. Concluding remarks 419
Acknowledgements 419
References 419
Chapter 19. Auxin regulated genes and promoters
Tom J. Guilfoyle 423
1. Introduction 423
2. Auxin responsive mRNAs 424
2.1. Aux/IAA mRNAs 425
2.2. GST mRNAs 428
2.3. SAUR mRNAs 430
2.4. GH3 mRNAs 431
2.5. ACC synthase mRNAs 431
2.6. Other auxin responsive up regulated mRNAs in plants 432
2.7. Auxin responsive up regulated mRNAs from pathogen genes 433
2.8. Auxin responsive down regulated mRNAs in plants 434
3. Organ and tissue expression patterns of auxin responsive genes 435
3.1. Northern blot analysis 435
3.2. Tissue print and in situ hybridization analyses 435
3.3. Promoter reporter gene analyses 436
xix
4. Promoters of auxin responsive genes 438
4.1. Conserved sequence motifs found in auxin responsive promoters 438
4.2. Functional analysis of ocs/as 1 AuxREs 440
4.3. Functional analysis of natural composite AuxREs 443
4.4. Functional analysis of other natural promoter fragments containing AuxREs 446
5. Synthetic composite AuxREs 447
6. Simple AuxREs 448
7. TGTCTC AuxRE transcription factors 449
8. Other transcription factors that bind cis elements in auxin responsive promoters 451
9. Perspectus 452
Acknowledgements 453
References 453
Chapter 20. Cytokinin perception and signal transduction
Jean Denis Faure and Stephen H. Howell 461
1. Introduction 461
2. Cytokinin mutants 463
2.1. Cytokinin overproduction or hyper responsive mutants 463
2.2. Mutants that fail to respond to cytokinin 465
3. Cytokinin effects on gene expression 466
4. Cytokinin binding proteins 467
5. Calcium and cytokinin signaling 469
6. Protein phosphorylation and cytokinin signaling 471
References 472
Chapter 21. Perception and transduction of ethylene
MA. Hall, A.R. Smith, G.V. Novikova and I.E. Moshkov 475
1. Introduction 475
2. Ethylene perception 475
2.1. Biochemical and physiological studies 475
2.2. Molecular genetics 479
3. Transduction mechanisms 481
3.1. Biochemical and physiological studies 481
3.2. Molecular genetics 4S5
4. Ethylene perception and transduction: a synthesis 485
References 489
Chapter 22. Abscisic acid perception and transduction
Peter K. Busk, Antoni Borrell, Dimosthenis Kizis and Montserrat Pages 491
1. Introduction 491
2. The biological role of ABA 491
XX
2.1. Embryo dormancy, germination and desiccation tolerance 491
2.2. Growth and desiccation tolerance of vegetative tissues 492
2.3. Response to high salt stress and cold acclimation 493
2.4. Wounding response, heat tolerance and apoptosis 493
3. ABA induced gene expression 494
3.1. Definition of ABA responsive genes 494
3.2. Expression in the embryo and the role of VPI/ABI3 495
3.3. Age and organ specific regulation in vegetative tissues 495
3.4. ABA dependent and independent gene expression in response to stress 496
3.5. ABA induced gene expression and protein synthesis 497
4. ABA signal transduction 497
4.1. Regulation of ABA synthesis 497
4.2. Second messengers in ABA induced stomatal closure 498
4.3. Second messengers in ABA induced expression 499
4.4. Phosphorylation and dephosphorylation regulate the ion channels in guard cells in response
to ABA 500
4.5. Intracellular signalling proteins 501
4.6. Regulatory pathways in the embryo 502
5. Regulation of transcription in response to ABA 503
5.1. Identification of cis elements 503
5.2. Protein binding to the ABRE 504
5.3. The effect of promoter context 505
5.4. The effect of VP1 506
5.5. Chromatin structure 508
Acknowledgements 509
References 509
Chapter 23. Salicylic acid: signal perception and transduction
Jyoti Shah and Daniel F. Klessig 513
1. Introduction 513
2. Salicylic acid an important signal in plants 514
2.1. Biological pathways affected by salicylic acid 514
2.2. Salicylic acid and plant disease resistance 516
2.3. Is salicylic acid the systemic signal for SAR induction? 518
3. Perception and transmission of the salicylic acid signal 520
3.1. Salicylic acid binding proteins in plants 520
3.2. Reactive oxygen intermediates as possible mediators of the salicylic acid signal 525
3.3. The salicylic acid signal transduction pathway 526
3.4. Salicylic acid mediated gene activation 530
4. Future directions 534
Acknowledgements 535
References 535
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| genre | (DE-588)4143413-4 Aufsatzsammlung gnd-content |
| genre_facet | Aufsatzsammlung |
| id | DE-604.BV012629210 |
| illustrated | Not Illustrated |
| indexdate | 2024-07-09T18:30:55Z |
| institution | BVB |
| isbn | 0444898255 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-008579779 |
| oclc_num | 40408788 |
| open_access_boolean | |
| owner | DE-355 DE-BY-UBR DE-703 DE-12 DE-19 DE-BY-UBM DE-11 DE-188 |
| owner_facet | DE-355 DE-BY-UBR DE-703 DE-12 DE-19 DE-BY-UBM DE-11 DE-188 |
| physical | XXII, 541 S. |
| publishDate | 1999 |
| publishDateSearch | 1999 |
| publishDateSort | 1999 |
| publisher | Elsevier |
| record_format | marc |
| series | New comprehensive biochemistry |
| series2 | New comprehensive biochemistry |
| spelling | Biochemistry and molecular biology of plant hormones ed.: P. J. J. Hooykaas ... 1. ed. Amsterdam [u.a.] Elsevier 1999 XXII, 541 S. txt rdacontent n rdamedia nc rdacarrier New comprehensive biochemistry 33 Plantes - Hormones Plant Growth Regulators Plant hormones Molekularbiologie (DE-588)4039983-7 gnd rswk-swf Pflanzenhormon (DE-588)4076052-2 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Pflanzenhormon (DE-588)4076052-2 s Molekularbiologie (DE-588)4039983-7 s DE-604 Hooykaas, Paul J. J. Sonstige oth New comprehensive biochemistry 33 (DE-604)BV000003914 33 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008579779&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Biochemistry and molecular biology of plant hormones New comprehensive biochemistry Plantes - Hormones Plant Growth Regulators Plant hormones Molekularbiologie (DE-588)4039983-7 gnd Pflanzenhormon (DE-588)4076052-2 gnd |
| subject_GND | (DE-588)4039983-7 (DE-588)4076052-2 (DE-588)4143413-4 |
| title | Biochemistry and molecular biology of plant hormones |
| title_auth | Biochemistry and molecular biology of plant hormones |
| title_exact_search | Biochemistry and molecular biology of plant hormones |
| title_full | Biochemistry and molecular biology of plant hormones ed.: P. J. J. Hooykaas ... |
| title_fullStr | Biochemistry and molecular biology of plant hormones ed.: P. J. J. Hooykaas ... |
| title_full_unstemmed | Biochemistry and molecular biology of plant hormones ed.: P. J. J. Hooykaas ... |
| title_short | Biochemistry and molecular biology of plant hormones |
| title_sort | biochemistry and molecular biology of plant hormones |
| topic | Plantes - Hormones Plant Growth Regulators Plant hormones Molekularbiologie (DE-588)4039983-7 gnd Pflanzenhormon (DE-588)4076052-2 gnd |
| topic_facet | Plantes - Hormones Plant Growth Regulators Plant hormones Molekularbiologie Pflanzenhormon Aufsatzsammlung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008579779&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV000003914 |
| work_keys_str_mv | AT hooykaaspauljj biochemistryandmolecularbiologyofplanthormones |