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Plant Viruses: From Ecology to Control

Plant Viruses: From Ecology to Control

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Plant viruses cause many of the most important diseases threatening crops worldwide. Over the last quarter of a century, an increasing number of plant viruses have emerged in various parts of the world, especially in the tropics and subtropics. As is generally observed for plant viruses, most of the emerging viruses are transmitted horizontally by biological vectors, mainly insects. Reverse genetics using infectious clones—available for many plant viruses—has been used for identification of viral determinants involved in virus–host and virus–vector interactions. Although many studies have identified a number of factors involved in disease development and transmission, the precise mechanisms are unknown for most of the virus–plant–vector combinations. In most cases, the diverse outcomes resulting from virus–virus interactions are poorly understood. Although significant advances have been made towards understand the mechanisms involved in plant resistance to viruses, we are far from being able to apply this knowledge to protect cultivated plants from the all viral threats.The aim of this Special Issue was to provide a platform for researchers interested in plant virology to share their recent results. To achieve this, we invited the plant virology community to submit research articles, short communications and reviews related to the various aspects of plant virology: ecology, virus–plant host interactions, virus–vector interactions, virus–virus interactions, and control strategies. This issue contains some of the best current research in plant virology.

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Keywords

  • Amalgaviridae
  • antagonism
  • aphids
  • Arabidopsis thaliana
  • ASGV
  • barley
  • barley yellow dwarf virus
  • begomovirus
  • Bioinformatics
  • Biology, Life Sciences
  • BYDV
  • callose
  • capulavirus
  • cilevirus
  • coat protein
  • coat proteins
  • CRESS DNA
  • cucumber
  • Cucumber mosaic virus
  • Deltasatellite
  • Detection
  • discovery
  • Disease Resistance
  • DNA satellites
  • dsRNA
  • effector-triggered immunity
  • eIF4E
  • ETI
  • Geminiviridae
  • geminiviruses
  • genome-wide association studies
  • helper virus range
  • high-throughput sequencing
  • high-throughput sequencing (HTS)
  • homopolymer
  • host adaptation
  • host jumping
  • LRNV
  • Mathematics & science
  • mechanical inoculation
  • membrane association
  • MinION
  • miRNAs
  • mixed-infections
  • movement protein
  • n/a
  • Nanopore sequencing
  • NIK1
  • OLV1
  • p29 capsid protein
  • PAMP-triggered immunity
  • persistent virus
  • Plant breeding
  • plant virus
  • plant–virus interaction
  • plasmodesmata
  • Plum pox virus
  • potyvirus
  • PTI
  • QTLs
  • real-time PCR
  • Reference, information & interdisciplinary subjects
  • Research & information: general
  • Resistance
  • RNA silencing
  • RNA virus
  • rolling circle amplification
  • seed transmission
  • Solanum lycopersicum
  • sweepoviruses
  • synergism
  • ToFBV
  • tomato
  • Topology
  • total RNA
  • trade-off
  • transreplication
  • triple gene block
  • TYLCD
  • TYLCV
  • vectors
  • viral evolution
  • viral load
  • viral metagenomics
  • viral suppressor
  • viral suppressors
  • Virulence
  • virus
  • virus evolution
  • virus movement
  • virus replication complex
  • virus transmission
  • VPg
  • vsiRNAs
  • Vta1
  • wheat
  • whitefly
  • yield loss

Links

DOI: 10.3390/books978-3-0365-2379-8

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