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Translation of Plant Virus RNA’s
1980In vitro translation of plant virus RNAs not only yields valuable information about the proteins encoded by these RNAs, but it also gives information about the protein synthesizing machinery of the host. In the present paper we only discuss the results obtained with plant viruses with a genome consisting of single stranded RNA(s) with the plus polarity
Lous Van Vloten-Doting, Lyda Neeleman
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Honey bee‐assisted surveillance for early plant virus detection
Annals of Applied Biology, 2018Incursions of plant viral pathogens are a primary concern for horticulture as they can significantly impact crop yields and require expensive management.
John M. K. Roberts +3 more
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Sulfite in plant virus inoculations
Virology, 1969Abstract The addition of 0.1% K2SO3 to plant virus inoculum before grinding, increased the transmission of eight viruses tested under certain conditions. The greatest increase (670-fold in 7 tests) resulted in the transfer of cucumber mosaic virus from beet to cowpea when the 0.5% inoculum also contained 1% K2HPO4, 0.3% charcoal, and 3% Celite added ...
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Nature, 1946
AMONG several viruses attacking cruciferous plants is one which affects turnips and, so far as we know, has not been previously described. The main symptom produced on the turnip is a bright yellow and green mosaic mottling, and the name we suggest for the virus is 'turnip yellow mosaic virus'.
R, MARKHAM, K M, SMITH
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AMONG several viruses attacking cruciferous plants is one which affects turnips and, so far as we know, has not been previously described. The main symptom produced on the turnip is a bright yellow and green mosaic mottling, and the name we suggest for the virus is 'turnip yellow mosaic virus'.
R, MARKHAM, K M, SMITH
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Engineered plant virus resistance
Plant Science, 2014Virus diseases are among the key limiting factors that cause significant yield loss and continuously threaten crop production. Resistant cultivars coupled with pesticide application are commonly used to circumvent these threats. One of the limitations of the reliance on resistant cultivars is the inevitable breakdown of resistance due to the multitude ...
GALVEZ, Leny C. +3 more
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The role of miRNA in plant–virus interaction: a review
Molecular Biology Reports, 2021Anteneh Ademe Mengistu, T. A. Tenkegna
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Nature, 1937
DR. CALDWELL'S chief criticism is directed against a point which has already been proved1, namely, the ability of this virus to enter the roots of a plant without the aid of any known external agencies. Dr. Caldwell says that the term ” air-borne” implies ” that the virus agent can escape from the tissues of the infected plant into the air under ...
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DR. CALDWELL'S chief criticism is directed against a point which has already been proved1, namely, the ability of this virus to enter the roots of a plant without the aid of any known external agencies. Dr. Caldwell says that the term ” air-borne” implies ” that the virus agent can escape from the tissues of the infected plant into the air under ...
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Production of Virus-free Plants
Acta Horticulturae, 1981The various control measures by which viruses may be prevented from infecting or causing severe losses in crop plants are discussed in Chapters 9 and 10. In this chapter, the techniques by which viruses may be eradicated from plants that are already infected are considered.
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The replication of plant virus RNA.
Microbiological sciences, 1985The roles of plant-encoded RNA-dependent RNA polymerases and viral RNA replicases in the replication of plant viral RNA are reviewed with respect to the positive single-stranded TYMV, CPMV and BMV.
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Current Opinion in Microbiology, 2003
RNA viruses are the most common viruses of plants, and the evolution of these viruses has been studied both experimentally and phylogenetically. The basic molecular mechanisms for plant virus evolution are similar to those of other viruses, with some notable exceptions. Recent advances include new insights into the origins of plant viruses, analyses of
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RNA viruses are the most common viruses of plants, and the evolution of these viruses has been studied both experimentally and phylogenetically. The basic molecular mechanisms for plant virus evolution are similar to those of other viruses, with some notable exceptions. Recent advances include new insights into the origins of plant viruses, analyses of
openaire +2 more sources