Plant virology 5th Edition by Roger Hull ISBN 9780123848710 978-0123848710

Plant virology 5th Edition by Roger Hull – Ebook PDF Instant Download/Delivery:9780123848710 ,978-0123848710
Full download Plant virology 5th Edition after payment

Product details: 

ISBN 10:9780123848710

ISBN 13:978-0123848710

Author:Roger Hull

The seminal text Plant Virology is now in its fifth edition. It has been 10 years since the publication of the fourth edition, during which there has been an explosion of conceptual and factual advances. The fifth edition of Plant Virology updates and revises many details of the previous edition while retaining the important earlier results that constitute the field’s conceptual foundation. Revamped art, along with fully updated references and increased focus on molecular biology, transgenic resistance, aphid transmission, and new, cutting-edge topics, bring the volume up to date and maintain its value as an essential reference for researchers and students in the field.

• Thumbnail sketches of each genera and family groups
• Genome maps of all genera for which they are known
• Genetic engineered resistance strategies for virus disease control
• Latest understanding of virus interactions with plants, including gene silencing
• Interactions between viruses and insect, fungal, and nematode vectors
• Contains over 300 full-color illustrations

Plant virology 5th Table of contents: 

Section I: Introduction

Chapter 1. Introduction

1. I. Historical (reviewed by van der Want and Dijkstra, 2006)

2. II. Definition of a Virus

3. III. Viruses and Koch’s Postulates

4. IV. This Edition

5. References

Chapter 2. Plant Viruses and Their Classification
6. I. Classification of Viruses
7. II. Criteria Used for Classifying Viruses
8. III. Strains of Viruses
9. IV. Criteria for the Recognition of Strains and Species
10. V. Correlations Between Criteria for Characterizing Viruses and Virus Strains
11. VI. Viruses of Gymnosperms, Pteridophytes, Algae, and Fungi
12. VII. Plant Virus Purification
13. References

Chapter 3. Architecture and Assembly of Virus Particles
14. I. Methods
15. II. Architecture of Rod-Shaped Viruses
16. III. Assembly of Rod-Shaped Viruses
17. IV. Architecture of Isometric Viruses
18. V. Small Icosahedral Viruses
19. VI. More Complex Isometric Viruses
20. VII. Enveloped Viruses
21. VIII. Discussion
22. References

Chapter 4. Symptoms and Host Range
23. I. Disease Symptoms and Host Range
24. II. Economic Losses Due to Plant Viruses (reviewed by Waterworth and Hadidid, 1998; Strange and Scott, 2005)
25. III. Macroscopic Symptoms
26. IV. Histological Changes
27. V. Cytological Effects
28. VI. The Host Range of Viruses
29. VII. Factors Influencing the Course of Infection and Disease
30. VIII. Processes Involved in Symptom Induction
31. IX. Influence of Other Agents on Symptom Production
32. References

Chapter 5. Agents Resembling or Altering Virus Diseases
33. I. Viroids
34. II. Satellite Viruses and Satellite RNAs (SatRNA)
35. References

Section II: Virus-Plant-Vector; Molecular Mechanisms and Interactions

Chapter 6. Genome Composition, Organization, and Expression
36. I. Genome Composition and Organization
37. II. Plant Viral Genome Organization
38. III. Virus Entry and Uncoating
39. IV. Plant Viral Genome Expression Strategies
40. V. Strategies of Positive-Sense ssRNA Viruses
41. VI. Negative-Sense Single-Stranded RNA Viruses (reviewed by Kormelink et al., 2011)
42. VII. Double-Stranded RNA Viruses
43. VIII. DNA Viruses
44. IX. Discussion
45. References

Chapter 7. Replication of Plant Viruses
46. I. Cellular Compartments Involved in Replication
47. II. Methods for Studying Viral Replication
48. III. Host Functions Used by Plant Viruses
49. IV. Replication of Positive-Sense Single-Stranded RNA Viruses
50. V. Replication of Negative-Sense Single-Stranded RNA Viruses
51. VI. Replication of Double-Stranded RNA Viruses
52. VII. Replication of Reverse Transcribing Viruses
53. VIII. Replication of Single-Stranded DNA Viruses
54. IX. Mutation and Recombination
55. X. Mixed Virus Assembly
56. XI. Discussion
57. References

Chapter 8. Origins and Evolution of Plant Viruses
58. I. Origins of Plant Viruses, Viroids, and Satellites
59. II. Basics of Evolution of Plant Viruses
60. III. Sources of Variation in Plant Viruses
61. IV. Variation and Virus Evolution
62. V. Selection Pressures for Evolution
63. VI. Discussion and Summary
64. VII. Coevolution of Viruses with Their Hosts and Vectors
65. VIII. Evidence for Evolution of Viruses
66. IX. General Discussion and Summary
67. References

Chapter 9. Virus–Plant Interactions: RNA Silencing
68. I. Mechanism of RNA Silencing
69. II. Plant Viruses and Silencing Pathways (reviewed by Csorba et al., 2009, Ding, 2010, and Zhu and Guo, 2012)
70. III. Systemic Silencing (reviewed by Carr et al., 2010; Hyun et al., 2011; Parent et al., 2012)
71. IV. Suppression of RNA Silencing
72. V. Effects of Silencing and Suppression on Plant Virus Disease
73. VI. Discussion
74. References

Chapter 10. Movement of Viruses Within Plants
75. I. Virus Movement in Plants
76. II. Cell-to-Cell Movement
77. III. Intracellular Transport
78. IV. Intercellular Transport
79. V. Long-Distance Movement
80. VI. Discussion
81. References

Chapter 11. Virus–Plant Interactions in Non-Permissive and Permissive Hosts
82. I. Definitions and Terminology of Host Responses to Inoculation
83. II. Resistance to Plant Viruses
84. III. Dominant Resistance
85. IV. Recessive Resistance (reviewed by Caranta and Dogimont, 2008; Truniger and Aranda, 2009; Le Gall et al., 2011)
86. V. Steps in the Induction of Disease
87. VI. Effects on Plant Metabolism
88. VII. General Discussion
89. References

Chapter 12. Plant to Plant Movement
90. I. Invertebrate Vectors
91. II. Properties of Invertebrates Relating to Virus Transmission
92. III. Virus–Vector Interactions—Arthropods
93. IV. Virus–Vector Interactions—Nematodes
94. V. Transmission of Viruses by Fungi and Protists (reviewed by Rochon et al., 2004)
95. VI. Discussion and Summary of Transmission by Biological Vectors
96. VII. Transmission by Direct Passage in Living Higher Plant Material
97. References

Section III: Applied Aspects

Chapter 13. Assay, Detection, and Diagnosis of Plant Viruses
98. I. Methods Involving Biological Activities of the Virus
99. II. Methods Depending on Physical Properties of the Virus Particle
100. III. Methods Depending on Properties of Viral Proteins
101. IV. Methods Involving Properties of the Viral Nucleic Acid
102. V. Decision Making on Diagnosis
103. VI. Discussion and Summary
104. References

Chapter 14. Ecology, Epidemiology, and Control of Plant Viruses
105. I. Ecology and Epidemiology
106. II. Aspects of Epidemiology
107. III. Control of Plant Viruses by Avoidance and Vector Control (reviewed by Jones, 2006; Thresh, 2006b)
108. IV. Control by Protecting the Plant from Systemic Disease
109. V. Discussion
110. References

Chapter 15. Plant Viruses and Technology
111. I. Transgenic Protection Against Plant Viruses
112. II. Discussion and Conclusions on Transgenic Protection
113. III. Uses of Plant Viruses in Plant Molecular Biology
114. IV. Uses of Plant Viruses in Industry
115. References

Section IV: Plant Virus Viromics

Chapter 16. Plant Virus Viromics: Involvement of Genomes of Three Organisms—Virus, Host, and Vector
116. I. Introduction
117. II. The Virus
118. III. The Host
119. IV. The Vector
120. V. Virus–Host Interactions
121. VI. Virus–Vector and Vector–Host Interactions
122. VII. Virus–Vector–Host Interactions

People also search for Plant virology 5th:

plant pathology graduate programs

the workers who studies started the field of plant virology

who is regarded as father of plant virology

what is virology all about

australasian plant virology workshop

Tags: Roger Hull, Plant, virology