A strategy for screening an inhibitor of viral silencing suppressors, which attenuates symptom development of plant viruses.

To find out whether we can control plant virus diseases by blocking viral RNA silencing suppressors (RSSs), we developed a strategy to screen inhibitors that block the association of RSSs with siRNAs using a surface plasmon resonance assay. The screened chemicals were tested in competition with RSSs for binding to siRNAs using a mobility shift assay. We then confirmed that tested chemicals actually inhibited the RSS activity in vivo using a protoplast assay which was developed for this purpose. This entire system can be adapted to screening inhibitors of not only plant viruses but also some animal viruses possessing RSSs.

Infection of capilloviruses requires subgenomic RNAs whose transcription is controlled by promoter-like sequences conserved among flexiviruses.

The first open-reading frame (ORF) of apple stem grooving virus (ASGV), of the genus Capillovirus, encodes an apparently chimeric polyprotein containing conserved regions for replicase (Rep) and coat protein (CP). However, our previous study revealed that ASGV mutants with distinct and discontinuous Rep- and CP-coding regions successfully infect plants, indicating that CP expressed via a subgenomic RNA (sgRNA) is sufficient for viability of the virus. Here we identified a transcription start site of the CP sgRNA and revealed that CP translated from the sgRNA is essential for ASGV infection. We mapped the transcription start sites of both the CP and the movement protein (MP) sgRNAs of ASGV and found a hexanucleotide motif, UUAGGU, conserved upstream from both sgRNA transcription start sites. Mutational analysis of the putative CP initiation codon and of the UUAGGU sequence upstream from the transcription start site of CP sgRNA demonstrated their importance for ASGV accumulation. Our results also demonstrated that potato virus T (PVT), an unassigned species closely related to ASGV, produces two sgRNAs putatively deployed for the CP and MP expression and that the same hexanucleotide motif as found in ASGV is located upstream from the transcription start sites of both sgRNAs. This motif, which constituted putative core elements of the sgRNA promoter, is broadly conserved among viruses in the families Alphaflexiviridae and Betaflexiviridae, suggesting that the gene expression strategy of the viruses in both families has been conserved throughout evolution.