Open AccessBook
Cucumber Mosaic Virus
TLDR
This chapter presents a comprehensive review of the more recent developments in CMV biology and biochemistry that can be used as a reference work for general virologists and plant pathologists, as well as those specializing in the molecular biology of CMV and/or other multicomponent plant viruses.Abstract:
Publisher Summary Cucumber mosaic virus (CMV), the type member of the cucumovirus group, was first reported in 1916 as the causal agent of a disease of cucumber and muskmelon in Michigan and cucumber in New York. Since then, CMV has been found in most countries of the world, predominantly in the temperate zones, but increasingly more often in the tropical countries. CMV has the largest host range of any virus. The number of plant species identified as hosts for CMV has increased steadily over the past 60 years. The highlights of the more recent research include the following: (1) the complete nucleotide sequence of the genome of three strains of CMV has been determined, as well as nucleotide sequences of individual RNAs of eight other CMV strains, (2) the CMV replicase has been purified to homogeneity, and it functions in vitro to synthesize CMV RNA de novo , (3) infectious transcripts have been synthesized from full-length cDNA clones of the three strains of CMV, (4) these biologically active cDNAs are being used to map sequences involved in replication, movement, pathogenesis, resistance, and vector transmission. Biologically active cDNA clones of the satellite RNAs of CMV have been produced in seven laboratories and sequences involved in replication and pathogenicity have/are being identified, (5) finally, transgenic plants have been produced expressing either the CMV coat protein gene or satellite RNA sequences that show to protect such plants from infection by CMV. This chapter, while focusing on the more recent developments in CMV biology and biochemistry, also covers some of the same ground albeit in brief. The chapter presents a comprehensive review that can be used as a reference work for general virologists and plant pathologists, as well as those specializing in the molecular biology of CMV and/or other multicomponent plant viruses.read more
Citations
More filters
Journal ArticleDOI
Top 10 plant viruses in molecular plant pathology
Karen-Beth G. Scholthof,Scott Adkins,Henryk Czosnek,Peter Palukaitis,Emmanuel Jacquot,Thomas Hohn,Barbara Hohn,Keith Saunders,Thierry Candresse,Paul Ahlquist,Cynthia Hemenway,Gary D. Foster +11 more
TL;DR: A short review on each virus of the Top 10 list and its importance is presented, with the intent of initiating discussion and debate amongst the plant virology community, as well as laying down a benchmark, as it will be interesting to see in future years how perceptions change and which viruses enter and leave the Top10.
Journal ArticleDOI
Virus-Vector Interactions Mediating Nonpersistent and Semipersistent Transmission of Plant Viruses
James C. K. Ng,Bryce W. Falk +1 more
TL;DR: Evidence suggests that two general strategies, the capsid and helper strategies, are found for plant viruses that are transmitted by aphids in a nonpersistent manner are found also for viruses transmitted in a semipersistent manner.
Journal ArticleDOI
Mechanisms of plant virus evolution.
TL;DR: The propensity for rapid adaptation makes tracing the evolutionary history of viruses difficult, and long term control of virus disease nearly impossible, but it provides an excellent model system for studying general mechanisms of molecular evolution.
Journal ArticleDOI
Suppression of Antiviral Silencing by Cucumber Mosaic Virus 2b Protein in Arabidopsis Is Associated with Drastically Reduced Accumulation of Three Classes of Viral Small Interfering RNAs
TL;DR: Investigation of the genetic pathway in Arabidopsis thaliana targeted during infection by cucumber mosaic virus (CMV) 2b protein suggests a model in which 2b inhibits the production of RDR1-dependent viral siRNAs that confer SA-dependent virus resistance by directing non-cell-autonomous antiviral silencing.
Book
Advances in cowpea research
TL;DR: Advances in cowpea research, Advances in animal research, advances in cow pea research as mentioned in this paper, advances in cattle research, and advances in animal agriculture, using cowpeas.
References
More filters
Journal ArticleDOI
Identification of four conserved motifs among the RNA-dependent polymerase encoding elements.
TL;DR: At the evolutionary level, the sequence similarities, gap distribution and distances between each motif strongly suggest that the ancestral polymerase module was encoded by an individual genetic element which was most closely related to the plus‐strand RNA viruses and the non‐viral retroposons.
Journal ArticleDOI
Primary structural comparison of RNA-dependent polymerases from plant, animal and bacterial viruses.
Gregory Kamer,Patrick Argos +1 more
TL;DR: A conserved fourteen-residue segment consisting of an Asp-Asp sequence flanked by hydrophobic residues has been found in retroviral reverse transcriptases, suggesting this span as a possible active site or nucleic acid recognition region for the polymerases.
Journal ArticleDOI
Coat Protein-Mediated Resistance Against Virus Infection
TL;DR: The common phenotype of different resistant plants are described and individual examples are reviewed in order to compare and contrast the characteristics of resistance to different viruses.
Journal ArticleDOI
Viral proteins containing the purine NTP-binding sequence pattern
TL;DR: The available biochemical evidence is compatible with the proposal that viral proteins in which the NTP-binding pattern is evolutionarily conserved might all be NTPases involved in: i) duplex unwinding during DNA and RNA replication, transcription, recombination and repair, and possibly mRNA translation; ii) DNA packaging, and iii) dNTP generation.