A pooled mycoviral resource in a strain of Rhizoctonia solani are regulators of fungal virulence

Abstract

Rhizoctonia solani is a widespread and devastating soil-borne plant fungal pathogen that causes diseases, including rice sheath blight, which are difficult to control. Some mycoviruses are potential biocontrol agents for the control of fungal diseases. In order to investigate the factors that influence the virulence of R. solani and search for mycoviruses with the potential for biocontrol of R. solani, a rice-infecting R. solani strain, ZJXD1–1, was isolated and confirmed to contain eight mycoviruses via dsRNA extraction and high-throughput sequencing. The identified mycoviruses belong to families of Endornaviridae (RsEV11 and RsEV12) and Mitoviridae (RsMV125 to RsMV129), and an unclassified Toti-like clade (RsTLV1). The C39 domain in RsEV12, which shares a close evolutionary relationship with bacteria, is observed for the first time in a mycovirus. Strains with different virus combinations were obtained through viral horizontal transfer, and pathogenicity test deduced that the Endornaviruses RsEV11 and RsEV12, and Mitovirus RsMV129 might potentially enhance the pathogenicity of R. solani, while RsMV125 might reduce the virulence or interfere with the function of other Mitoviruses. Furthermore, virus curing via protoplast regeneration and viral horizontal transfer demonstrated that RsMV129 is the causal agent of R. solani hypervirulence. Overall, our study provided the resource pool of viruses that may contribute to the discovery of new biocontrol agents against R. solani and enhance our understanding of the pathogenesis of R. solani regulated by mycoviruses.