Plant virus-host interaction: molecular approaches and viral evolution
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| Hauptverfasser: | , , |
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Amsterdam ; Heidelberg [u.a.]
Elsevier, Academic Press
2014
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| Ausgabe: | 1. publ. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXII, 408 S. Ill., graph. Darst. |
| ISBN: | 9780124115842 |
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Datensatz im Suchindex
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| adam_text | Plant Virus-Host
Interaction
Molecular Approaches and Viral Evolution
R K Gaur
Associate Professor and Head, Department of Science, FASC,
Mody Institute of Technology and Science,
Lashmangarh, Sikar, India
Thomas Hohn
Professor Emeritus, Botanical Institute, University of Basel,
Basel, Switzerland
Pradeep Sharma
Senior Scientist (Biotechnology), Directorate of Wheat Research,
Karnal, India
ELSEVIER
AMSTERDAM • BOSTON • HEIDELBERG • LONDON
NEW YORK • OXFORD • PARIS • SAN DIEGO
SAN FRANCISCO • SINGAPORE • SYDNEY • TOKYO
Academic I ress is an imprint of Elsevier
Contents
Contributors xv
Preface xix
About the Editors xxi
1 Role of double-stranded RNA-binding proteins in RNA
silencing and antiviral defense
Jasleen Singh, Xiuchun Zhang, Lucy R Stewart, Thomas Mitchell, and
Feng Qu
Introduction 1
DRBs in Humans and Animals 5
DRBs in Plants 6
Structural Analyses of Arabidopsis DRB Proteins 7
Subcellular Localization of DRB Proteins 9
Functional Diversification of DRBs in Animals and Plants 10
DRBs and Antiviral Defense 11
Conclusion 12
Acknowledgment 12
References 12
2 Alteration of host-encoded miRNAs in virus infected
plants —experimentally verified
Zhimin Yin, Mirosfawa Chrz;mowska, Krystyna Michalak, and
Ewa Zimnoch-Cuzowska
Introduction 17
miRNAs Responsive to Virus Infection 18
miRNAs Commonly Induced 18
miRNAs Induced by Specific Viruses 26
miRNA Levels Altered by Specific Virus Strains 27
Species- or Tissue-Specific Induction of miRNAs upon Viral Infection 27
miRNA s 27
Novel miRNAs in Virus Infected Plants 28
miRNAs in Synergistic Infection 29
Virus-Encoded miRNAs 29
Effect of Viral Infection on mRNA Targets of miRNAs 29
Mutually Antagonistic Expression of mRNA Targets and the
Corresponding miRNAs 30
v
Contents
Parallel Increase in Expression of mRNA Targets and the
Corresponding miRNAs 30
Virus-, Strain-, or Tissue-Specific Induced mRNA Targets 38
miRNA* Targets 38
miRNA Targets in Synergistic Infection 39
miRNA and Symptoms 39
Interaction between miRNAs and Their Targets as Well as Viral
Silencing Suppressors 40
Argonaute Quenching and Global Changes in Dicer Homeostasis
Caused by Viral Infection 40
Virus Induction of miR1 68 Is Involved in Repression of AG01
Protein Accumulation 41
A Biphasic Alteration of miRNAs and Their Targets Expression
upon Viral Infection 42
Species-, Tissue-, Virus-, Strain-Specific Alteration of miRNAs and
Their Targets Expression upon Viral Infection 42
miftNA s 44
Viral Silencing Suppressors 44
miRNAs Enriched during Virus Infection May Have No Strong
Effects on the Levels of Their mRNA Targets 45
The Arms Race between Plants and Plant Viruses 45
Conclusion 47
Abbreviations 48
Acknowledgments 49
References 50
3 Host-virus interactions in banana-infecting viruses
R Selvarajan and V Balasubramanian
Introduction 57
Virus-Host Interaction at the Plant Level 58
The Virus-Vector Relationship 64
Virus-Host Interaction at the Molecular Level 66
Transgenic Plant and Virus Resistance 70
Conclusion 71
References 72
4 Recent advances on interactions between the whitefly
Bemisia tabaci and begomoviruses, with emphasis on
Tomato yellow leaf curl virus
Pakkianathan Britto Cathrin and Murad Chanim
Introduction 79
Tomato Yellow Leaf Curl Virus Causing Worldwide Epidemics 80
Molecular Characteristics of TYLCV 80
TYLCV—a Worldwide Threat to Tomato Production 81
The Whitefly Bemisia Tabaci— Pest and Vector Status 83
Contents ^ vii
Nomenclature and Host Range 83
Life Cycle 84
Significance and Symptoms of B tabaci Infestations 85
The Significance of B tabaci as a Virus Vector 85
Parameters for Acquisition, Transmission, and Retention of TYLCV
by B tabaci 86
Acquisition 87
Transmission 88
Retention 88
Transovarial Transmission of TYLCV by 8 tabaci 91
Sex-mediated Transmission of TYLCV by B tabaci 91
Molecular Interactions between TYLCV and B tabaci 93
Concluding Remarks 95
References 96
5 Hosts and non-hosts in plant virology and the effects of
plant viruses on host plants
^ Andras Takacs, Jozsef Horvath, Richard Gaborjanyi,
Cabriella Kazinczi, and Jozsef Mikulas
Types of Host-Virus Relationships 105
Compatible Host-Virus Relationships 105
Non-compatible Host-Virus Relationships 106
The Role of Host Plants in Virus Diagnosis 108
Biologic Decline of Plants Due to Viral Infection 110
The Effect of Viral Infections on Photosynthetic Processes 111
The Effect of Viral Infections on Plant Biomass Production 113
Sublethal Water Saturation Deficit of Healthy and
Virus-Infected Plants 113
The Effect of Viral Infections on the Germination
Characteristics of Weeds 113
The Effect of Viral Infections on the Nutrient Uptake of Plants 117
The Effect of Viral Infection on Seed Production in Plants 11 7
Virus and Fungal Interactions in Plants 117
The Effects of Artificial and Natural Substances on Host-Virus
Relationships 119
References 122
Further Reading 122
6 Interference with insect transmission to control
plant-pathogenic viruses
Maria Urizarna Espaha and Juan Jose Lopez-Moya
Introduction 125
Modes of Transmission 126
Main Croups of Insect Vectors of Plant Viruses 129
Aphids 129
Contents
Whiteflies 130
Leafhoppers 131
Other Insect Vectors 1 32
Control of Insect Vectors to Control Viral Diseases 132
Interference with Transmission 133
Identification of Virus Receptors 134
RNA Interference (RNAi) in Insects 135
Conclusion 136
Acknowledgments 138
References 138
7 Transmission and host interaction of Geminivirus in weeds
Avinash Marwal, Anurag Kumar Sahu, and R K Gaur
Introduction 143
International Recognition of Geminiviridae 144
Transmission Vectors of the Family Geminiviridae 145
Genomic Organization in Different Genera 146
Host Interaction of Geminivirus in Weeds 148
RNAi Technology: A Spectacular Approach against Geminivirus 151
Antiviral Agent: Docking Framework 153
Conclusion 155
Acknowledgments 156
References 156
8 Tombusvirus-induced multivesicular bodies: origin and
role in virus-host interaction
L Rubino, M Russo, and G P Martelli
Introduction 163
General Features of Tombusviruses 164
Peroxisome-Derived MVBs in Plant Cells 166
Mitochondrion-Derived MVBs in Plant Cells 168
Tombusvirus Replication Complex in Yeast Cells 170
References 172
9 Papaya ringspot virus-P: overcoming limitations of
resistance breeding in Carica papaya L
Sunil Kumar Sharma and Savarni Tripathi
Introduction 177
Papaya Ringspot Virus 178
Present Strategies for PRSV-P Management 179
Breeding PRSV-P-Resistant Papaya Cultivars 182
Earlier Attempts 182
Limitations of Breeding between C papaya and Vasconcellea
Species 184
Solving the Problems of Incompatibility 1 85
Contents ix
Recent Developments 189
Use of PRSV-P-lmmune V Pubescens via a Bridge Species 1 89
Use of Molecular Markers and the Nature of PRSV-P Resistance 189
Conclusion 191
References 191
10 Synergism in plant-virus interactions: a case study of
CMV and PVY in mixed infection in tomato
Tiziana Mascia and Donato Gallitelli
Introduction 195
Virus Properties 196
Moving from Field Crops into a Model System 198
The Loss-of-Function Approach to Dissect the Single Cell, Local,
and Systemic Patterns of Mixed Infections 199
PVY-SON41 Complements Movement Defects of the CMV-FnyA2b
Mutant 201
CMV-satRNA Makes a More Complex Pattern 202
Conclusion 202
References 203
11 Methods of diagnosis, stability, transmission, and host
interaction of Papaya lethal yellowing virus in papaya
J Albersio A Lima, Aline Kelly Q Nascimento, Roberto C A Lima,
Veronica C Oliveira, and Georgia C Anselmo
Introduction 207
Occurrence and Geographic Distribution of
Papaya Lethal Yellowing Virus 209
Methods of Virus Diagnosis 210
Production of Polyclonal Antiserum 211
Serologic Methods Used in Virus Detection 212
Molecular Techniques for Virus Detection 215
Virus Properties, Symptoms, and Host Range 217
Virus Transmission and Stability 219
Virus Distribution inside Infected Plants 221
Interaction with Papaya Ringspot Virus 222
Strategies for Disease Control 223
References 224
12 Establishment of endogenous pararetroviruses in the rice
genome
Ruifang Liu and Yuji Kishima
Introduction 229
Endogenous Rice Tungro Bacilliform V/rus-Like Sequences Are
Preferentially Present between AT Dinucleotide Repeats in Rice
Genomes 230
Contents
The Existence of AT Dinucleotide Repeats Prior to Endogenous
Rice Tungro Bacilliform V/ri/s-Like Sequence Integration 233
Possible Mechanisms of Integration Using AT Dinucleotide Repeats 233
AT Dinucleotide Repeats Are Hot Spots of Double-Stranded Breaks 235
Differences in Rice Tungro Bacilliform Virus and Endogenous
Rice Tungro Bacilliform V//us-Like Sequence with
Regard to Genome Integration 235
Conclusion 236
Acknowledgment 237
References 237
13 Volatile organic compounds and plant virus-host interaction
Y L Dorokhov, T V Komarova, and E V Sheshukova
Introduction 241
VOCs as Products of Plant Metabolic Pathways 242
At Leaf Wounding in VOC Emission and Plant Virus Infection 244
VOC-Mediated Priming of Plants and Its Role in Virus Infection 247
VOCs and Virus-Transmitted Vectors 251
Non-Circulative, Nonpersistent Viruses 251
Persistent Viruses 253
Conclusion 254
References 257
14 Diversity of latent plant-virus interactions and their impact
on the virosphere
K R Richert-Poggeler and J Minarovits
Introduction 263
Diversity and Biology of Latent Plant Viruses and Viroids 264
Interactions of Latent Plant Viruses and Viroids within the
Virosphere
Transition from Latency to the Causation of Symptoms
Latency in Animal Systems
Conclusion
Acknowledgments
References
15 Viroid-insect-plant interactions
Noemi Van Bogaert, Guy Smagghe, and Kris De Jonghe
Introduction
What Are Viroids?
Distribution
Transmission
General Mechanisms of Virus and Viroid Transmission
r*
Insect Transmission of Viroids
Contents
Conclusion 286
Acknowledgments 287
References 287
16 Engineering crops for resistance to geminiviruses
Akhtar Jamal Khan, Sohail Akhtar, Shahid Mansoor, and Imran Amin
Introduction 291
Conventional Disease Resistance Strategies for Geminiviruses 297
Nonconventional Disease Resistance Strategies for Geminiviruses 297
Pathogen-Derived Resistance to Geminiviruses 302
Coat-Protein-Mediated Resistance 302
Movement-Protein-Mediated Resistance 303
Replicase-Protein-Mediated Resistance 303
RNAi-Mediated Resistance 304
miRNA-Mediated Resistance 307
DNA Interference 309
Non-pathogen-Derived Resistance to Geminiviruses 309
Virus-Induced Cell Death 309
Peptide Aptamer 310
GroEL-Mediated Resistance 310
Artificial Zinc-Finger-Protein-Mediated Resistance 311
ssDNA-Binding-Protein-Mediated Resistance 311
Conclusion 312
Acknowledgment 313
References 313
17 Cauliflower mosaic virus (CaMV) upregulates translation
reinitiation of its pregenomic polycistronic 35S RNA via
interaction with tne cell s translation machinery
Mikhail Schepetilnikov and Lyubov Ryabova
Introduction 325
Control of Cellular Initiation and Reinitiation of Translation 326
Cap-Dependent Translation Initiation in Eukaryotes 326
Canonical Translation Initiation Factors and Reinitiation-Promoting
Factors (RPFs) 326
Control of Translation Initiation by the TOR Signalling Pathway 327
TOR Complexes in Mammals 327
TOR Downstream Targets in Mammals and Plants 328
Translation of Viral Polycistronic MRNAs via Reinitiation 329
The Virus-Activated Translation Reinitiation Strategy of Plant
Pararetroviruses 329
Ribosomal Shunt on CaMV 35S RNA 330
Mechanism of Virus-Activated Reinitiation of Translation —
Involvement of elF3 and RISP Host Factors 331
Host Factors in TAV-Activated Reinitiation 331
:n y Contents
Characterization of elF3 and RISP Host Factors in Virus-Activatcd
Reinitiation 332
Mechanism of Virus-Activated Reinitiation of Translation —
Involvement of Host Factor TOR 334
Is TAV a Suitable Tool for Studying Upstream Regulation of TOR? 335
S6K1 Is Phosphorylated by TAV-Activated TOR within elF3-
Containing Preinitiation Complexes 336
Current Model of Host Factor Functioning in TAV-Activated
Reinitiation of Translation 336
Auxin and TOR Signaling in Plants 337
Conclusions and Perspectives 339
References 339
18 Molecular mechanism of Begomovirus evolution and
plant defense response
T Vinutha, Om Prakash Gupta, G Rama Prashat, Veda Krishnan,
and P Sharma
Introduction 345
Evolution of Begomoviruses 347
Consequences of Mutation and Recombination 348
Interaction of Viral Suppressors with the Silencing Pathway 348
Role of Phytohormones in Plant Defense Responses 349
How Do Plants Defend Themselves Against the Evolutionary
Potential of Invading Viruses? 351
RNA-Directed DNA Methylation as a Plant Genome Defense
Mechanism 352
Conclusion 353
References 354
19 Impact of the host on plant virus evolution
Xiao-fei Cheng, Nasar Virk, and Hui-zhong Wang
Introduction 359
Impact of the Host on Viral Genome Stability 360
Impact of the Host on Viral Amino Acid Usage 361
Impact of the Host on Viral Synonymous Codon Choice 362
Impact of the Host on Viral Dinucleotide Frequency 364
Conclusion 366
References 367
20 Virus-induced physiologic changes in plants
Andras Takacs, Jozsef Horvath, Richard Gaborjanyi, and
Gabriella Kazinczi
^ Chloroplast Ultrastructure 373
Chloroplast Degradation in the Susceptible Hosts 373
Contents xiii x y
Chloroplasts in the Resistant or Necrotic Host 374
Changes in Chlorophyll-Protein Complexes and Chloroplast
Proteins 376
Fluorescence Emission and Excitation Spectra 377
Inhibition of Chlorophyll Biosynthesis 379
Decrease in POR Quantities and Reduction in the Galactolipid
Content 380
Changes in C02 Fixation 381
Effect of Virus Replication Products 381
References 382
Further Reading 383
21 Virus-Virus interactions
Andras Takacs, Richard Gaborjanyi, jozsef Horvath, and
Gabriella Kazinczi
Cross Protection 385
Synergistic Antagonistic Interactions 387
Recombination 389
Heteroencapsidation 390
Gene Silencing 391
Further Reading 393
Index 395
|
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| spelling | Gaur, Rajarshi Kumar Verfasser aut Plant virus-host interaction molecular approaches and viral evolution R. K. Gaur ; Thomas Hohn ; Pradeep Sharma 1. publ. Amsterdam ; Heidelberg [u.a.] Elsevier, Academic Press 2014 XXII, 408 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Botany Molecular immunology Plant immunology Plant Wirtspflanzen (DE-588)4444525-8 gnd rswk-swf Wechselwirkung (DE-588)4064937-4 gnd rswk-swf Molekularbiologie (DE-588)4039983-7 gnd rswk-swf Viren (DE-588)4063589-2 gnd rswk-swf Wirtspflanzen (DE-588)4444525-8 s Viren (DE-588)4063589-2 s Wechselwirkung (DE-588)4064937-4 s Molekularbiologie (DE-588)4039983-7 s DE-604 Hohn, Thomas Verfasser aut Sharma, Pradeep K. Verfasser aut HEBIS Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027583122&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Gaur, Rajarshi Kumar Hohn, Thomas Sharma, Pradeep K. Plant virus-host interaction molecular approaches and viral evolution Botany Molecular immunology Plant immunology Plant Wirtspflanzen (DE-588)4444525-8 gnd Wechselwirkung (DE-588)4064937-4 gnd Molekularbiologie (DE-588)4039983-7 gnd Viren (DE-588)4063589-2 gnd |
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| title | Plant virus-host interaction molecular approaches and viral evolution |
| title_auth | Plant virus-host interaction molecular approaches and viral evolution |
| title_exact_search | Plant virus-host interaction molecular approaches and viral evolution |
| title_full | Plant virus-host interaction molecular approaches and viral evolution R. K. Gaur ; Thomas Hohn ; Pradeep Sharma |
| title_fullStr | Plant virus-host interaction molecular approaches and viral evolution R. K. Gaur ; Thomas Hohn ; Pradeep Sharma |
| title_full_unstemmed | Plant virus-host interaction molecular approaches and viral evolution R. K. Gaur ; Thomas Hohn ; Pradeep Sharma |
| title_short | Plant virus-host interaction |
| title_sort | plant virus host interaction molecular approaches and viral evolution |
| title_sub | molecular approaches and viral evolution |
| topic | Botany Molecular immunology Plant immunology Plant Wirtspflanzen (DE-588)4444525-8 gnd Wechselwirkung (DE-588)4064937-4 gnd Molekularbiologie (DE-588)4039983-7 gnd Viren (DE-588)4063589-2 gnd |
| topic_facet | Botany Molecular immunology Plant immunology Plant Wirtspflanzen Wechselwirkung Molekularbiologie Viren |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027583122&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT gaurrajarshikumar plantvirushostinteractionmolecularapproachesandviralevolution AT hohnthomas plantvirushostinteractionmolecularapproachesandviralevolution AT sharmapradeepk plantvirushostinteractionmolecularapproachesandviralevolution |