Mutating the arginine residue within the FRNK motif of HC-Pro yield highly attenuated strains that confer complete cross protection against telosma mosaic virus (TelMV) in passion fruit (Passiflora edulis)

Abstract

AbstractTelosma mosaic virus (TelMV,Potyvirus, Potyviridae) is an emerging viral pathogen causing a major global threat to passion fruit plantations. However, an efficient strategy for controlling such viruses is not yet available. Cross protection is a phenomenon in which pre-infection of a plant with one virus prevents or delays superinfection with the same or closely related virus. HC-Pro is the potyviral encoded multifunctional protein involved in several steps of viral infection, including multiplication, movement, transmission and RNA silencing suppression. The main hypothesis we tested in this study was whether it is possible to generate attenuated viral strains capable of conferring protection against severe TelMV infection by manipulating theHC-Progene. By introducing point mutation into the potyviral conserved motif FRNK of HC-Pro, we have successfully obtained three highly attenuated mutants of TelMV (R181K, R181D and R181E, respectively) that can systemically infect passion fruit plants without any noticeable symptoms. Importantly, these mutants confer complete protection against subsequent infection of severe recombinant virus TelMV-GFP, evidenced by no detection of viral RNA or protein of the superinfection virus in the systemic leaves of passion fruit plants in both early and late stages. Lastly, we demonstrated that the HC-Pros harbored by the highly attenuated mutants exhibited reduced RNA silencing suppression activity inNicotiana benthamianaleaves. Altogether, this study provides the first demonstration of the generation of highly attenuated strains for TelMV and highlights key amino acid residue involved in complete cross protection against TelMV, opening a new avenue to fight TelMV in the field.