Abstract
BackgroundPipo was recently described as a new ORF encoded within the genome of the Potyviridae family members (PNAS 105:5897–5902, 2008). It is embedded within the P3 cistron and is translated in the +2 reading frame relative to the potyviral long ORF as the P3N-PIPO fusion protein. In this work, we first collected pipo nucleotide sequences available for different isolates of 48 Potyvirus species. Second, to determine the biological implications of variation in pipo length, we measured infectivity, viral accumulation, cell-to-cell and systemic movements for two Turnip mosaic virus (TuMV) variants with pipo alleles of different length in three different susceptible host species, and tested for differences between the two variants.ResultsIn addition to inter-specific variation, there was high variation in the length of the PIPO protein among isolates within species (ranging from 1 to 89 amino acids). Furthermore, selection analyses on the P3 cistron did not account for the existence of stop codons in the pipo ORF, but showed that positive selection was significant in the overlapping region for Potato virus Y (PVY) and TuMV. In some cases, variability in length was associated with host species, geographic provenance and/or other strain features. We found significant empirical differences among the phenotypes associated with TuMV pipo alleles, though the magnitude and sign of the effects were host-dependent.ConclusionsThe combination of computational molecular evolution analyses and experiments stemming from these analyses provide clues about the selective pressures acting upon the different-length pipo alleles and show that variation in length may be maintained by host-driven selection.
Highlights
Pipo was recently described as a new ORF encoded within the genome of the Potyviridae family members (PNAS 105:5897–5902, 2008)
Potato virus Y (PVY) showed the largest number of alternative stop codons among the 80 isolates included in the study
Whereas the minimal difference in PIPO size of only one amino acid was observed for Zucchini yellow mosaic virus (ZYMV) and Sugarcane mosaic virus (SCMV), differences of six amino acids were found for PPV, nine amino acids for Turnip mosaic virus (TuMV), and 11 amino acids for Papaya ringspot virus (PRSV) and Potato virus A (PVA)
Summary
Pipo was recently described as a new ORF encoded within the genome of the Potyviridae family members (PNAS 105:5897–5902, 2008). It is embedded within the P3 cistron and is translated in the +2 reading frame relative to the potyviral long ORF as the P3N-PIPO fusion protein. The Potyviridae are one of the largest plant virus families, and many of its members represent major agricultural threats [1,2] This family belongs to the picorna-like virus superfamily, for which overlapping ORFs have been described only in a few cases [3,4,5]. The effects of genetic variation in pipo – in particular protein length – on interactions with host factors and the phenotypic consequences thereof are unknown
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