The positive-sense RNA genome of Sweet potato feathery mottle virus (SPFMV) (genus Potyvirus, family Potyviridae) contains a large open reading frame (ORF) of 3,494 codons translatable as a polyprotein and two embedded shorter ORFs in the ؊1 frame: PISPO, of 230 codons, and PIPO, of 66 codons, located in the P1 and P3 regions, respectively. PISPO is specific to some sweet potato-infecting potyviruses, while PIPO is present in all potyvirids. In SPFMV these two extra ORFs are preceded by conserved G 2 A 6 motifs. We have shown recently that a polymerase slippage mechanism at these sites could produce transcripts bringing these ORFs in frame with the upstream polyprotein, thus leading to P1N-PISPO and P3N-PIPO products (B. Rodamilans, A.
IMPORTANCEGene products of potyviruses include P1, HCPro, P3, 6K1, CI, 6K2, VPg/NIaPro, NIb, and CP, all derived from the proteolytic processing of a large polyprotein, and an additional P3N-PIPO product, with the PIPO segment encoded in a different frame within the P3 cistron. In sweet potato feathery mottle virus (SPFMV), another out-of-frame element (PISPO) was predicted within the P1 region. We have shown recently that a polymerase slippage mechanism can generate the transcript variants with extra nucleotides that could be translated into P1N-PISPO and P3N-PIPO. Now, we demonstrate by mass spectrometry analysis that P1N-PISPO is indeed produced in SPFMV-infected plants, in addition to P1. Interestingly, while in other potyviruses the suppressor of RNA silencing is HCPro, we show here that P1N-PISPO exhibited this activity in SPFMV, revealing how the complexity of the gene content could contribute to supply this essential function in members of the Potyviridae family. P otyviruses (family Potyviridae) are important viral pathogens with positive-sense, single-stranded RNA genomes that are able to infect a wide range of plant species. The genomic RNA of potyviruses, around 10 kb in size with a viral protein (VPg) at its 5= end and polyadenylated at the 3= end, contains a large open reading frame (ORF) that encodes a polyprotein comprising the following gene products from the N to the C terminus: P1, HCPro, P3, 6K1, CI, 6K2, VPg/NIaPro, NIb, and CP (1, 2). Despite the abundant sequence information available on potyviruses, it was not until 2008 that the presence of a well-conserved second short ORF of around 60 codons, termed PIPO (Pretty Interesting Potyviral ORF) by its discoverers, was predicted as an overlapping product within the P3 region in all members of the family. Thus, this ORF yields a fusion product with the upstream portion of P3 after frameshift (P3N-PIPO), as found in plants infected with turnip mosaic virus (TuMV) (3). More recently, another short ORF termed PISPO (Pretty Interesting Sweet potato Potyviral ORF) was predicted by bioinformatics analysis within the P1-coding sequence of a few members of the Potyvirus genus, all related to sweet potato feathery mottle virus (SPFMV), including sweet po-
