Mutations in the WG and GW motifs of the three RNA silencing suppressors of grapevine fanleaf virus alter their systemic suppression ability and affect virus infectivity
Jiyeong Choi, Scottie Browning, Corinne Schmitt-Keichinger, Marc Fuchs

TL;DR
This study shows that specific mutations in the WG and GW motifs of grapevine fanleaf virus proteins disrupt their ability to suppress RNA silencing and reduce virus infectivity.
Contribution
The study identifies the functional importance of WG and GW motifs in GFLV VSRs for systemic RNA silencing suppression and virus infectivity.
Findings
Mutating the WG motif in protein 1A and 1ABHel abolishes systemic RNA silencing suppression and virus infectivity.
GW motif mutations in 1BHel reduce RNA silencing suppression and delay virus infection.
Double mutations in both motifs of 1ABHel completely disable suppression and gene downregulation.
Abstract
Viral suppressors of RNA silencing (VSRs) encoded by grapevine fanleaf virus (GFLV), one of the most economically consequential viruses of grapevine (Vitis spp.), were recently identified. GFLV VSRs include the RNA1-encoded protein 1A and the putative helicase protein 1BHel, as well as their fused form (1ABHel). Key characteristics underlying the suppression function of the GFLV VSRs are unknown. In this study, we explored the role of the conserved tryptophan-glycine (WG) motif in protein 1A and glycine-tryptophan (GW) motif in protein 1BHel in their systemic RNA silencing suppression ability by co-infiltrating Nicotiana benthamiana 16c line plants with a GFP silencing construct and a wildtype or a mutant GFLV VSR. We analyzed and compared wildtype and mutant GFLV VSRs for their (i) efficiency at suppressing RNA silencing, (ii) ability to limit siRNA accumulation, (iii) modulation of…
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Taxonomy
TopicsPlant Virus Research Studies · Plant and Fungal Interactions Research · Insect-Plant Interactions and Control
