Complementation analysis of triple gene block of Potato virus S (PVS) revealed its capability to support systemic infection and aphid transmissibility of recombinant Potato virus X

Triple gene block (TGB) sequences derived from isolates of ordinary Potato virus S (PVS-O) and Chenopodium-systemic (PVS-CS) were analyzed. Although the TGB sequences did not reveal any specific difference within the 7K protein, some specific differences within the 25K and 12K ORFs were found. In order to investigate a possible functional divergence of PVS-O and PVS-CS TGB variants, these genes were propagated in chimeric Potato virus X (PVX). Both PVS TGB variants partly complemented PVX TGB in Nicotiana benthamiana. The recombinant viruses multiplied to lower titer than the wild-type PVX in N. benthamiana showed attenuated symptoms. Whereas the recombinant PVX variants were also propagated systemically in Nicotiana glutinosa, Celosia argentea, Nicotiana occidentalis and chimeric PVX bearing TGB from PVS-O in Solanum lycopersicum, neither were propagated systemically in Chenopodium quinoa nor in Nicotiana tabacum cv. Samsun nn and the PVX-resistant Solanum tuberosum cv. Szignal. The potential for recombinant viruses to be transmitted by the aphid Myzus persicae was investigated. Aphid transmission in the recombinant virus was obtained by replacing PVX TGB by TGB from the PVS-CS isolate. These results show the potential function of Carlavirus TGB in aphid transmissibility and underlines the possible biological risks from certain recombinant virus variants.