Soybean antiviral immunity conferred by dsRNase targets the viral replication complex

Eukaryotic positive-strand RNA viruses replicate their genomes in membranous compartments formed in a host cell, which sequesters the dsRNA replication intermediate from antiviral immune surveillance. Here, we find that soybean has developed a way to overcome this sequestration. We report the positional cloning of the broad-spectrum soybean mosaic virus resistance gene Rsv4, which encodes an RNase H family protein with dsRNA-degrading activity. An active-site mutant of Rsv4 is incapable of inhibiting virus multiplication and is associated with an active viral RNA polymerase complex in infected cells. These results suggest that Rsv4 enters the viral replication compartment and degrades viral dsRNA. Inspired by this model, we design three plant-gene-derived dsRNases that can inhibit the multiplication of the respective target viruses. These findings suggest a method for developing crops resistant to any target positive-strand RNA virus by fusion of endogenous host genes. Soybean mosaic virus (SMV) is a potyvirus that reduces soybean yield and seed quality worldwide. Here, the authors reveal that the resistance gene Rsv4 encodes an RNase H family protein with dsRNA-degrading activity, and it can enter the viral replication compartment and degrade viral dsRNA.