Verfügbarkeit: Plant signal transduction

Plant signal transduction:

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Oxford Oxford Univ. Press 2002
Ausgabe:	1. publ.
Schriftenreihe:	Frontiers in molecular biology 38
Schlagworte:	Plant cellular signal transduction Plant molecular biology Signaltransduktion Pflanzenzelle Pflanzen Reizphysiologie Aufsatzsammlung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXI, 324 S. Ill., graph. Darst.
ISBN:	0199638802 0199638799

Internformat

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Datensatz im Suchindex

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adam_text	Contents List of contributors xiii Abbreviations xvii 1 Signal transduction in plants: cross talk with the environment 1 DIERK SCHEEL AND CLAUS WASTERNACK 2 Light perception and signal transduction 6 FERENC NAGY AND EBERHARD SCHAFER 1. Introduction 6 2. The cryptochrome (CRY1 and CRY2) and phytochrome (PHYA E) photoreceptor families 6 3. Photoreceptor mutants and over expression studies 7 4. Biochemical approaches to the elucidation of the mechanism of light induced signal transduction ^ 8 5. Genetic analysis of signal transduction ( / 9 6. Cell biological approaches ^s 13 7. Conclusions 14 Acknowledgements 15 References 15 3 Wound and mechanical signalling 20 FLORIAN SCHALLER AND ELMAR W. WEILER 1. Introduction 20 2. Plant signal transduction in response to wound and mechanical stimuli 22 2.1 Fatty acid signalling 22 2.2 Peptide signalling 25 2.3 Oligosaccharide signalling 26 vi I CONTENTS 3. Wounding/herbivore attack 26 3.1 Fatty acid signalling/octadecanoids 27 3.2 Protein kinases and signal transduction 29 3.3 Ca2+ /calmodulin based signal transduction 30 3.4 Peptide signalling 30 4. Mechanotransduction 31 4.1 Fatty acid signalling/octadecanoids 32 4.2 Protein kinases and signal transduction 33 4.3 Ca2+ /calmodulin based signal transduction 33 4.4 Polypeptide signalling 34 5. Conclusion 34 Acknowledgements 35 References 35 4 The role of active oxygen species in plant signal transduction 45 EVA VRANOVA, FRANK VAN BREUSEGEM, JAMES DAT, ENRIC BELLES BOIX AND DIRKINZE 1. Active oxygen species in plants 45 1.1 Biochemical properties 45 1.2 Sources of AOS in plant cells 46 1.3 Mechanisms that modulate AOS levels in plants 48 2. AOS as signal molecules 52 2.1 Signalling role of AOS in defence responses 52 2.2 Signalling role of AOS in cell death 53 2.3 Signalling role of AOS in growth and morphogenesis 54 2.4 AOS and redox signalling 54 3. AOS: part of a signalling network 60 3.1 Salicylic acid 60 3.2 Ethylene 61 3.3 Jasmonicacid 61 3.4 Abscisicacid 61 3.5 Growth stimulating hormones 62 3.6 Nitric oxide 63 4. Conclusions 64 Acknowledgements 65 References 65 CONTENTS \| vii 5 Heat stress induced signalling 74 KAPIL BHARTI AND LUTZ NOVER 1. Introduction 74 1.1 The heat stress response 74 1.2 Complexity of the heat stress response 75 2. Signalling systems 76 2.1 Membranes 76 2.2 Calcium 77 2.3 Protein kinase cascades 78 3. The Hsf network 79 3.1 Basic structure of Hsfs 79 3.2 Multiplicity of Hsfs 81 3.3 Control of Hsf activity 85 4. Complex cellular programmes influenced by heat stress 92 4.1 Translational reprogramming 92 4.2 Cell cycle 94 4.3 Ribosome biosynthesis 94 4.4 Photosynthesis 95 4.5 Apoptosis 96 5. Conclusions 98 References 98 6 Molecular mechanisms of signal transduction in cold acclimation H6 JULIO SALINAS 1. Introduction 116 2. The complexity of the cold acclimation response 117 3. Sensing low temperatures 118 4. Transducing the cold signal 119 4.1 Biochemical analysis of signal transduction in response to low temperature 120 4.2 Molecular analysis of signal transduction in response to low temperature 124 4.3 Genetic analysis of signal transduction in response to low temperature 128 5. Concluding remarks and future perspectives 131 Acknowledgements 133 References 133 I viii CONTENTS 7 Dehydration stress signal transduction 140 HANS HUBERT KIRCH, JONATHAN PHILLIPS AND DOROTHEA BARTELS 1. Introduction: dehydration stress studies in plants 140 2. Signal perception 141 3. The role of abscisic acid: ABA dependent and ABA independent signalling pathways 141 3.1 ABA independent regulation of dehydration stress response 143 3.2 ABA dependent regulation of dehydration stress response 143 4. Mutants as tool to dissect the signalling pathways 144 4.1 ABA deficient mutants 146 4.2 ABA insensitive and hypersensitive mutants 146 4.3 Mutants with an altered response to ABA and osmotic stress 148 5. Identification of transcription factors important for dehydration signalling pathways 149 5.1 Basic region/leucine zipper (bZIP) proteins 150 5.2 AP2/EREBP domain proteins 151 5.3 Homeodomain leucine zipper (HD Zip) proteins 152 5.4 MYB proteins 153 5.5 Basic helix loop helix (bHLH) proteins 154 5.6 ABI3/VP1 proteins 154 6. Signalling components involved in water stress 155 7. Cross talk of the dehydration stress signalling pathway 155 8. Exploiting the knowledge of dehydration stress signal transduction to engineer stress tolerance 156 Acknowledgements 157 References 157 8 Salt stress signal transduction in plants 165 LIMING XIONG AND JIAN KANG ZHU 1. Salt uptake and determinants of salt tolerance in plants 166 1.1 Salt uptake mechanisms 166 1.2 Salt extrusion and compartmentation 166 1.3 Production of osmolytes and detoxification of free radicals 168 1.4 Role of Ca2+ and other ions in plant salt tolerance 170 2. Regulation of salt tolerance responses 171 2.1 Membrane potential 171 CONTENTS \| ix 2.2 Acidity 172 2.3 Variety and concentration of salts 172 2.4 Abscisic acid and other phytohormones 173 2.5 Transcriptional regulation 174 2.6 Post transcriptional regulation 174 3. Salt stress signal transduction modules and pathways 175 3.1 Receptors 175 3.2 Second messengers 177 3.3 Phosphoproteins 179 3.4 MAPK modules 182 3.5 Transcription factors 184 3.6 Signal partners: protein modifiers, adapters, and scaffolds 185 4. Outlook 187 References 188 9 Recognition and defence signalling in plant/bacterial and fungal interactions 198 JONG HYUN HAM AND ANDREW BENT 1. Introduction 198 2. Gene for gene resistance and the initiation of defence signal transduction 198 2.1 A molecular foundation for the gene for gene hypothesis 199 2.2 Bacterial signals 199 2.3 Fungal signals 201 2.4 Structure and function of R genes 202 2.5 The evolution and specificity of R genes 204 3. What actually stops pathogen growth? 205 4. Defence signal transduction pathways 206 4.1 Identification and dissection of defence signal transduction components by genetic analysis 207 4.2 Biochemical/pharmacological methods 212 4.3 Immunoprecipitation, interaction cloning, site directed mutagenesis 214 4.4 Transcriptional control of defence related genes in plants 215 4.5 Microarrays and global gene expression patterns 215 5. Application of defence signal transduction findings 216 6. Conclusions 216 References 217 x CONTENTS 10 Signalling in plant virus interactions 226 STEVEN A. WHITHAM AND S. P. DINESH KUMAR 1. Introduction 226 2. Induction of host DNA synthesis factors for viral replication 227 3. Viral suppression of post transcriptional gene silencing 230 4. Alterations in host gene expression during virus infection 234 5. Induction of R gene mediated defence responses 236 5.1 Virus resistance gene structure, function, and regulation 236 5.2 Avirulence components of virus resistance genes 239 5.3 Virus resistance gene signalling 239 6. Future approaches to host virus interactions and conclusions 241 Acknowledgements 242 References 242 11 LCO signalling in the interaction between rhizobia and legumes 250 ROSSANA MIRABELLA, HENK FRANSSEN AND TON BISSELING 1. Introduction 250 2. Morphological changes induced in root hairs 252 2.1 Root hair growth 252 2.2 Root hair deformation 254 2.3 Root hair curling and infection 254 3. Nod factor perception 255 3.1 Site of Nod factor perception 256 3.2 Multiple receptors 256 3.3 Nod factor binding proteins 257 4. Nod factor signalling 258 4.1 Biochemical approach 258 4.2 Genetic dissection of the Nod factor signalling 259 5. Concluding remarks 262 5.1 Cloning of legume genes involved in Nod factor perception or transduction 262 5.2 Integration of biochemical and genetic studies 263 5.3 From signal to form 263 References 264 CONTENTS ! xi 12 Rhizospheric signals and early molecular events in the ectomycorrhizal symbiosis 272 F. MARTIN, S. DUPLESSIS, F. A. DITENGOU, H. LAGRANGE, C. VOIBLET AND F. LAPEYRIE 1. Ectomycorrhiza development: a multistep process 272 2. Rhizospheric signals are involved in the symbiosis developmental sequence 274 3. Detection and analysis of gene expression during mycorrhiza development 278 3.1 Analysis of the transcriptome of the Eucalyptus/Pisolithus ectomycorrhiza 280 3.2 Genes involved in signalling, adaptation, and defence reactions 281 3.3 Genes coding for structural proteins 282 3.4 Genes involved in metabolism 282 3.5 Genes of unknown function 282 4. Conclusions 283 Acknowledgements 284 References 284 13 Signalling in plant insect interactions: signal transduction in direct and indirect plant defence 289 MARCEL DICKE AND REMCO M. P. VAN POECKE 1. Introduction 289 2. Direct versus indirect plant defence 289 3. Induction of direct defence 290 3.1 Proteinase inhibitors 291 3.2 Plant secondary metabolites 291 3.3 Signal transduction 292 4. Induction of indirect defence 295 4.1 Identity of herbivore induced plant volatiles 296 4.2 Importance of herbivore induced plant volatiles to carnivorous arthropods 297 4.3 Response by carnivorous arthropods and benefits to plants 298 4.4 Herbivore induced plant volatiles and responses by herbivores 299 4.5 Herbivore induced plant volatiles and effects on neighbouring plants 299 4.6 Signal transduction 300 I xii \| CONTENTS 5. Interaction between direct and indirect defence 304 6. Interaction between defences against pathogens and herbivores 305 7. Comparative analysis of signal transduction in induction of direct and indirect defence: model systems 305 8. Major questions to be addressed 306 References 307 Index 317
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spelling	Plant signal transduction ed. by Dierk Scheel ... 1. publ. Oxford Oxford Univ. Press 2002 XXI, 324 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Frontiers in molecular biology 38 Plant cellular signal transduction Plant molecular biology Signaltransduktion (DE-588)4318717-1 gnd rswk-swf Pflanzenzelle (DE-588)4115551-8 gnd rswk-swf Pflanzen (DE-588)4045539-7 gnd rswk-swf Reizphysiologie (DE-588)4256619-8 gnd rswk-swf 1\p (DE-588)4143413-4 Aufsatzsammlung gnd-content Pflanzen (DE-588)4045539-7 s Signaltransduktion (DE-588)4318717-1 s DE-604 Reizphysiologie (DE-588)4256619-8 s Pflanzenzelle (DE-588)4115551-8 s DE-188 Scheel, Dierk Sonstige oth Frontiers in molecular biology 38 (DE-604)BV010329078 38 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009649323&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Plant signal transduction Frontiers in molecular biology Plant cellular signal transduction Plant molecular biology Signaltransduktion (DE-588)4318717-1 gnd Pflanzenzelle (DE-588)4115551-8 gnd Pflanzen (DE-588)4045539-7 gnd Reizphysiologie (DE-588)4256619-8 gnd
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title	Plant signal transduction
title_auth	Plant signal transduction
title_exact_search	Plant signal transduction
title_full	Plant signal transduction ed. by Dierk Scheel ...
title_fullStr	Plant signal transduction ed. by Dierk Scheel ...
title_full_unstemmed	Plant signal transduction ed. by Dierk Scheel ...
title_short	Plant signal transduction
title_sort	plant signal transduction
topic	Plant cellular signal transduction Plant molecular biology Signaltransduktion (DE-588)4318717-1 gnd Pflanzenzelle (DE-588)4115551-8 gnd Pflanzen (DE-588)4045539-7 gnd Reizphysiologie (DE-588)4256619-8 gnd
topic_facet	Plant cellular signal transduction Plant molecular biology Signaltransduktion Pflanzenzelle Pflanzen Reizphysiologie Aufsatzsammlung
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