Central domain of a potyvirus VPg is involved in the interaction with the host translation initiation factor eIF4E and the viral protein HcPro.

Using recombinant proteins produced in bacteria or in infected plants, interactions between the VPg and HcPro of Lettuce mosaic potyvirus (LMV) and between LMV VPg and the lettuce translation initiation factor 4E, the cap-binding protein (eIF4E), were demonstrated in vitro. Interaction with eIF4E and HcPro both involved the same VPg central domain. The structure of this domain in the VPg context was predicted to include an amphiphilic alpha-helix, with the amino acids related to biological functions in various potyviruses exposed at the hydrophilic side.

Dot hybridization detection of plum pox virus using 32P-labeled RNA probes representing non-structural viral protein genes.

A cDNA library covering the complete genome of plum pox virus strain D (PPV D) has been obtained, and an endonuclease restriction map derived from it. This map was superposed on the PPV genomic organisation map, established for a nonaphid transmissible strain of PPV (Maiss et al., 1989). This allowed us to select seven probes, corresponding to different regions on the PPV genome. These probes were tested in a dot-blot hybridization assay for the detection of PPV. Probes of various lengths (0.25 to 1.5 kb) were tested and those measuring at least 0.8 kb (4 of the 7 probes selected) proved to be the most sensitive. The detection limit was of about 5 pg of purified virus per assay. Probes representing non-structural viral protein genes were equally sensitive in detecting both serotypes D and M of PPV. The previously described probe pBPPV1 (Varveri et al., 1988), covering the coat protein gene of strain D, was less sensitive, when compared to the above probes, in detecting heterologous strains of PPV. The polyvalence of probes transcribed from non-structural viral protein genes was confirmed by screening isolates of PPV, collected in infected orchards in several Mediterranean countries.