RNA N6-methyladenosine modification suppresses replication of rice black streaked dwarf virus and is associated with virus persistence in its insect vector

N⁶ methylation of adenosine (m⁶A) was recently discovered to play a role in regulating the life cycle of various viruses by modifying viral and host RNAs. However, different studies on m⁶A effects on the same or different viruses have revealed contradictory roles for m⁶A in the viral life cycle. In this study, we sought to define the role of m⁶A on infection by rice black streaked dwarf virus (RBSDV), a double-stranded RNA virus, of its vector small brown planthopper (SBPH). Infection by RBSDV decreased the level of m⁶A in midgut cells of SBPHs. We then cloned two genes (LsMETTL3 and LsMETTL14) that encode m⁶A RNA methyltransferase in SBPHs. After interference with expression of the two genes, the titre of RBSDV in the midgut cells of SBPHs increased significantly, suggesting that m⁶A levels were negatively correlated with virus replication. More importantly, our results revealed that m⁶A modification might be the epigenetic mechanism that regulates RBSDV replication in its insect vector and maintains a certain virus threshold required for persistent transmission.