Role of Plant Virus Movement Proteins in Suppression of Host RNAi Defense

One of the systems of plant defense against viral infection is RNA silencing, or RNA interference (RNAi), in which small RNAs derived from viral genomic RNAs and/or mRNAs serve as guides to target an Argonaute nuclease (AGO) to virus-specific RNAs. Complementary base pairing between the small interfering RNA incorporated into the AGO-based protein complex and viral RNA results in the target cleavage or translational repression. As a counter-defensive strategy, viruses have evolved to acquire viral silencing suppressors (VSRs) to inhibit the host plant RNAi pathway. Plant virus VSR proteins use multiple mechanisms to inhibit silencing. VSRs are often multifunctional proteins that perform additional functions in the virus infection cycle, particularly, cell-to-cell movement, genome encapsidation, or replication. This paper summarizes the available data on the proteins with dual VSR/movement protein activity used by plant viruses of nine orders to override the protective silencing response and reviews the different molecular mechanisms employed by these proteins to suppress RNAi.

Automated summary

One strategy that plants use to defend against viral infection is RNA silencing, or RNA interference (RNAi). This process involves small RNAs derived from viral genomic RNAs and/or mRNAs guiding an Argonaute nuclease (AGO) to target virus-specific RNAs. Viruses, in turn, have developed viral silencing suppressors (VSRs) to counteract this defense mechanism. VSRs are multifunctional proteins that not only inhibit silencing but also perform other functions in the virus infection cycle.