- 作 者:JANE PARKER
- 出 版 社:WILEY-BLACKWELL
- 出版年份:2009
- ISBN:140517532X
- 标注页数:385 页
- PDF页数:399 页
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1 A personal perspective of the last 40 years of plant pathology: emerging themes, paradigm shifts and future promise&Michele C. Heath 1
1.1 Introduction 2
1.2 The hypersensitive response 2
1.3 The gene-for-gene hypothesis 5
1.4 Host versus non-host resistance 7
1.5 Future promise 8
2 Pathogen-associated molecular patterns (PAMP) and PAMP-triggered immunity&Thorsten Nürnberger and Birgit Kemmerling 16
2.1 The concept of plant immunity 16
2.2 Pathogen-associated molecular patterns 19
2.3 Damage-associated molecular patterns 24
2.4 Pathogen-derived toxins 25
2.5 PRRs in plant immunity 28
2.6 Intracellular signal transduction in PTI 32
2.7 Suppression of PTI by bacterial effectors 36
2.8 Concluding remarks 37
3 Pseudomonas syringae type Ill-secreted proteins and their activities and effects on plant innate immunity&Byeong-ryool Jeong, Karin van Dijk and James R. Alfano 48
3.1 Introduction 49
3.2 P. syringae type Ill-secreted helper proteins 51
3.3 The plant innate immune system 53
3.4 Enzymatic activities and plant targets of P. syringae type III effectors 58
3.5 Influence of type III effectors on plant hormones 65
3.6 Concluding remarks 66
4 Fungal and oomycete biotrophy&Mark de Jong and Guido van den Ackerveken 77
4.1 Introduction 77
4.2 Penetration and establishment of infection structures 78
4.3 Dealing with plant defence responses 83
4.4 Contribution of the host to infection 87
4.5 Acquiring nutrients from the host 89
4.6 Outlook 94
5 Genome biology cracks enigmas of oomycete plant pathogens&Klaas Bouwmeester, Pieter M.J.A. van Poppel and Francine Govers 102
5.1 Introduction 103
5.2 Biology and pathology of oomycetes 103
5.3 Genomic resources 109
5.4 The impact of genomics on gene discovery 112
5.5 The secretome 117
5.6 Future perspectives 125
6 Plant-virus interactions: defence and counter-defence&Mathew Lewsey, Peter Palukaitis and fohn P. Carr 134
6.1 The unique challenge posed by viruses to plants 134
6.2 Virus infection and propagation through susceptible host plants 135
6.3 'Classical' or genetically predetermined resistance 137
6.4 RNA silencing 144
6.5 Viral suppressors of RNA silencing 152
6.6 Concluding remarks 160
7 Marshalling the troops:intracellular dynamics in plant pathogen defense&Kristoffer Palma, Marcel Wiermer and Xin Li 177
7.1 Introduction 178
7.2 The front line - exocytosis, endocytosis and vesicle transport 180
7.3 At headquarters - nucleocytoplasmic trafficking in plant immunity 190
7.4 Conclusions 206
8 Role of plant secondary metabolites at the host-pathogen interface&Pawel Bednarek and Paul Schulze-Lefert 220
8.1 Introduction 220
8.2 Classification of defence-related plant secondary metabolites 221
8.3 Biological activity of plant secondary metabolites 229
8.4 Dynamic induction and targeting of secondary metabolites to the pathogen interface 234
8.5 Genetic approaches to validate defensive functions of plant secondary metabolites 241
8.6 Successful pathogens 247
8.7 Concluding remarks 250
9 Chemical ecology of plant-insect interactions&Axel Mithofer, Wilhelm Boland and Massimo E. Maffei 261
9.1 Introduction 262
9.2 Recognition and signalling 262
9.3 Defence strategies 271
9.4 The cost of defence to plants 277
9.5 Airborne communication 278
9.6 Priming and manipulations to enhance pest resistance 280
10 Lipid signals in plant-pathogen interactions&Jyoti Shah and Ratnesh Chaturvedi 292
10.1 Introduction 292
10.2 Epidermal surface lipids influence plant-pathogen interactions 293
10.3 Elicitation of plant defenses by microbial lipids 294
10.4 Lipid modification of defense signaling components and pathogen-derived elicitors 296
10.5 Signaling function of plant lipids and lipid-derived factors 298
10.6 Lipases in plant-pathogen interaction 312
10.7 Lipid-transfer proteins in plant-pathogen interaction 316
10.8 Concluding remarks 318
11 Induced resistance - orchestrating defence mechanisms through crosstalk and priming&Sjoerd van der Ent, Annemart Koornneef, Jurriaan Ton and Corné M.J. Pieterse 334
11.1 Introduction 335
11.2 Induced resistance signalling 338
11.3 Crosstalk between defence signalling pathways 348
11.4 Priming for enhanced defence 354
11.5 Concluding remarks 358
Index 371