T. P. Pirone scite author profile

A variety of noncirculatively transmitted viruses have evolved a vector transmission strategy that involves, in addition to virions, virus-encoded proteins that are not constituents of virions. These "helpers" and the genes encoding them have been characterized for viruses in the genera Potyvirus and Caulimovirus. Several lines of evidence support the hypothesis that these helpers act by mediating retention of virions in regions of the vector's alimentary tract from which they subsequently can be egested to initiate an infection. The possible advantage this convergently evolved strategy could confer to noncirculatively transmitted virus quasispecies is discussed.

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A point mutation in the coat protein abolishes aphid transmissibility of a potyvirus

Atreya

1990

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A Specific Interaction between Coat Protein and Helper Component Correlates with Aphid Transmission of a Potyvirus

et al. 1997

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Specific binding between the coat protein (CP) and the helper component (HC) of the tobacco vein mottling potyvirus (TVMV) was characterized using a protein blotting-overlay protocol. In this in vitro assay, HC interacted with either virions or CP monomers originating from the aphid-transmissible TVMV-AT but not from the non-aphid-transmissible TVMV-NAT. There was a strong correlation between the aphid transmissibility of a series of TVMV variants having mutations in the DAG motif of the CP and their ability to bind HC. Expression of TVMV CP derivatives in bacteria allowed a precise determination of the minimum domain mediating HC binding. This domain is composed of seven amino acids, including the DAG motif (DTVDAGK), located in the N-terminus of the TVMV CP at amino acid positions 2 to 8.

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Mutational analysis of the helper component-proteinase gene of a potyvirus: effects of amino acid substitutions, deletions, and gene replacement on virulence and aphid transmissibility.

Atreya

Pirone

1993

Proc. Natl. Acad. Sci. U.S.A.

177

114

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We have previously provided evidence that amino acid substitutions within the N-terminal portion of the helper component-proteinase (HC-Pro) from tobacco vein mottling virus (TVMV), in particular at Lys-307, not only affect the aphid transmission activity of HC-Pro but also have a significant effect on TVMV virulence. In the present study amino acids which differ in their charge properties were substituted at position 307. A highly basic residue was required to retain helper component activity and virulence. Deletion and insertion mutagenesis in the 5' terminus of the HC-Pro gene suggested that this RNA domain may be an essential element for TVMV infectivity. Replacement of the TVMV HC-Pro gene with that from another potyvirus, zucchini yellow mosaic virus, maintained infectivity and aphid transmissibility of the chimeric virus, although symptoms were attenuated. Our results suggest that, in addition to its importance in aphid transmission, the HC-Pro gene may be of general importance in regulating virulence of potyviruses, possibly by interaction of these sequences with the host.

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Site-directed mutations in the potyvirus HC-PRO gene affect helper component activity, virus accumulation, and symptom expression in infected tobacco plants

et al. 1992

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T. P. Pirone

Helper-Dependent Vector Transmission of Plant Viruses

A point mutation in the coat protein abolishes aphid transmissibility of a potyvirus

A Specific Interaction between Coat Protein and Helper Component Correlates with Aphid Transmission of a Potyvirus

Mutational analysis of the helper component-proteinase gene of a potyvirus: effects of amino acid substitutions, deletions, and gene replacement on virulence and aphid transmissibility.

Site-directed mutations in the potyvirus HC-PRO gene affect helper component activity, virus accumulation, and symptom expression in infected tobacco plants

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