The Phylogeography of Potato Virus X Shows the Fingerprints of Its Human Vector.

Potato virus X (PVX) occurs worldwide and causes an important potato disease. Complete PVX genomes were obtained from 326 new isolates from Peru, which is within the potato crop's main domestication center, 10 from historical PVX isolates from the Andes (Bolivia, Peru) or Europe (UK), and three from Africa (Burundi). Concatenated open reading frames (ORFs) from these genomes plus 49 published genomic sequences were analyzed. Only 18 of them were recombinants, 17 of them Peruvian. A phylogeny of the non-recombinant sequences found two major (I, II) and five minor (I-1, I-2, II-1, II-2, II-3) phylogroups, which included 12 statistically supported clusters. Analysis of 488 coat protein (CP) gene sequences, including 128 published previously, gave a completely congruent phylogeny. Among the minor phylogroups, I-2 and II-3 only contained Andean isolates, I-1 and II-2 were of both Andean and other isolates, but all of the three II-1 isolates were European. I-1, I-2, II-1 and II-2 all contained biologically typed isolates. Population genetic and dating analyses indicated that PVX emerged after potato's domestication 9000 years ago and was transported to Europe after the 15th century. Major clusters A-D probably resulted from expansions that occurred soon after the potato late-blight pandemic of the mid-19th century. Genetic comparisons of the PVX populations of different Peruvian Departments found similarities between those linked by local transport of seed potato tubers for summer rain-watered highland crops, and those linked to winter-irrigated crops in nearby coastal Departments. Comparisons also showed that, although the Andean PVX population was diverse and evolving neutrally, its spread to Europe and then elsewhere involved population expansion. PVX forms a basal Potexvirus genus lineage but its immediate progenitor is unknown. Establishing whether PVX's entirely Andean phylogroups I-2 and II-3 and its Andean recombinants threaten potato production elsewhere requires future biological studies.

Construction of an infectious full-length cDNA clone of potato aucuba mosaic virus.

Potato aucuba mosaic virus (PAMV), a positive single-strand RNA virus, has one of the longest genomes of the viruses in the genus Potexvirus. In 2019, potato samples with mottle and crinkling symptoms from Huzhou, Zhejiang province, China, were identified to be infected with PAMV, potato virus X (PVX), and potato virus Y (PVY) by transcriptome sequencing. To study the effects of single infection by PAMV, the full-length sequence of PAMV from Huzhou (MT193476) was determined and an infectious full-length cDNA clone was constructed. This cDNA clone was infectious by agro-infiltration, leading to systemic symptoms in Nicotiana benthamiana, tomato, pepper, and potato.

Complete genome sequences of new divergent potato virus X isolates and discrimination between strains in a mixed infection using small RNAs sequencing approach.

Potato virus X (PVX; genus Potexvirus, family Alphaflexiviridae, order Tymovirales) is one of the most widespread and intensively studied viruses of potato. However, little is known about its diversity in its likely center of radiation, the Andean region of South America. To fill this gap, the strategy of Illumina deep sequencing of small RNAs was used to obtain complete or near complete genome sequence of PVX from 5 symptomatically infected greenhouse and 3 field samples (Solanum tuberosum) from Peru. PVX sequences determined in this study were assigned into three different phylogenetic groups of isolates. Notably, a complete genome sequence of a representative of a new PVX phylogenetic lineage was obtained, which shows a high level of sequence dissimilarity to other completely sequenced isolates (∼17%). The new PVX genotype was detected in greenhouse and field samples. One of the field samples was infected with the mixture of two PVX strains, which were efficiently discriminated using small RNA sequencing approach. The study confirms the utility of small RNAs deep sequencing for successful viral strain differentiation and discovery of new viral strains and indicates a high diversity of PVX in the Andean region of South America, a pattern which may be expected also for other potato pathogens.

Sequencing of the Tamus red mosaic virus genome: further evidence that it is a distinct species of the genus Potexvirus.

In 1993, a virus causing red mosaic and leaf distortion has been isolated from black bryony (Tamus communis) in Italy. Based on particle properties and serology, the virus was assigned to the genus Potexvirus and named Tamus red mosaic virus (TRMV), pending a genome sequence. The original Italian TRMV isolate was submitted to the DSMZ plant virus collection (PV-0397). To confirm the taxonomic status of the virus, the entire genome sequence was determined comprising 6,495 nucleotides excluding the poly(A)-tail. Five putative open reading frames (ORFs) in an arrangement typical for potexviruses were predicted. TRMV is closely related to but distinct from Clover yellow mosaic virus and Allium virus X. In addition to previous morphological and serological characterization, the results presented in this study further reinforce the classification of TRMV as a distinct virus species of the genus Potexvirus.

Genetic variability in the coat protein gene of Potato virus X and the current relationship between phylogenetic placement and resistance groupings.

The complete coat protein nucleotide sequences of 11 Potato virus X isolates from Australia and two from Britain were compared to those of 72 others. On phylogenetic analysis, clade I contained all 11 Australian sequences, and sub-clade II-1 contained the two new British sequences. Clade I isolates were from six different continents, but those in sub-clades II-1 and II-2 were only from Europe and the Americas, respectively. Clade I contained isolates in strain groups 1, 3 and 4, and sub-clades II-1 and II-2, isolates in strain groups 2 and 4. Thus, strain group 4 now occurs within both clades.

Phylogenetic analyses of an isolate obtained from potato in 1985 revealed potato virus X was introduced to China via multiple events.

Potato virus X (PVX) is one of the most common plant viruses that cause great economic losses to solanaceous plants. We have previously reported the complete genomic sequence of the 2006 Chinese potato isolate FX21 and demonstrated that PVX isolates cluster into two groups: Eurasia and America. Here, we present the complete genomic sequence of one PVX isolate collected from potato in 1985 (PVX-1985). The genome of PVX-1985 is identical to that of FX21 in length and has the same genomic structure. PVX-1985, which like FX21 fell within the Eurasia group, clustered together with isolates from Europe, whereas FX21 clustered together with isolates of primarily Asian origin. Phylogenetic analyses of the complete genomic sequences and of CP gene sequences showed that Chinese PVX isolates have different origins and were introduced via multiple events. Though all the open reading frames of PVX are under negative/purifying selection, the central region of RNA-dependent RNA polymerase is under positive/diversifying selection.

Phylogenetic characteristics, genomic heterogeneity and symptomatic variation of five closely related Japanese strains of Potato virus X.

To elucidate the genomic determinants of Potato virus X (PVX) strains, which cause diverse responses in host plants, we determined the complete genomic RNA sequences of four Japanese PVX strains: PVX-BS, -BH, -OG, and -TO. These four strains, plus the previously sequenced PVX-OS strain, differ in their pathogenicity in wild potato (Solanum demissum) and tobacco (Nicotiana tabacum cv. Samsun NN). The genomic sequences of these five PVX strains were highly homologous (i.e., the nucleotide sequence identity ranged from 95.4 to 98.5%). Phylogenetic analysis indicated that the Japanese PVX strains originated from an ancestral PVX strain in the European group, and that the virulence of these strains in both S. demissum and tobacco is not correlated with their phylogenetic relationships, suggesting that the pathogenicity of each strain in these host plants is determined by a relatively small number of nucleotides and can easily be altered independent of phylogenetic relationships. Particularly, OS, BH, and BS, which respectively produce markedly contrasting ringspot, mosaic, and asymptomatic infections in tobacco leaves, were the most closely related, suggesting that these three strains are an attractive model for analyzing the genetic determinants causing these symptoms. A possible correlation between the genomic and biological differences of these strains is discussed.

Complete nucleotide sequence of the genomic RNA of a French isolate of Pepino mosaic virus (PepMV). Brief report.

The complete nucleotide sequence of the genomic RNA of a French isolate of Pepino mosaic virus (PepMV) was determined. With a length of 6,425 nucleotides excluding the poly(A) tail at the 3' terminus, the PepMV genome contains five major open reading frames encoding a 164 kDa replicase, triple gene block proteins of 26 kDa, 14 kDa and 9 kDa, and a 25 kDa coat protein. This genome organization, as well as characteristic consensus motifs and high degrees of similarity of PepMV proteins with those of other potexviruses confirmed that PepMV belongs to the Potexvirus genus. Phylogenetic analyses carried out on replicase, triple gene block protein 1 and coat protein amino acid sequences revealed that PepMV is closely related to species Narcissus mosaic virus (NMV), Scallion virus X (SVX), Cymbidium mosaic virus (CymMV), and Potato aucuba mosaic virus (PAMV).

Acquisition of multiple virulence/avirulence determinants by potato virus X (PVX) has occurred through convergent evolution rather than through recombination.

Resistance to potato virus X (PVX) is determined by the product of a host resistance gene and a viral determinant specifying either virulence (resistance-breaking ability) or avirulence (resistance sensitivity). The viral coat protein is the determinant of resistance mediated by the host Nx gene while the 25 kDa movement protein is the determinant of Nb-mediated resistance. Group 1 and group 4 strains of PVX are avirulent or virulent respectively for both these determinants while group 2 and group 3 strains are virulent for one but avirulent for the other determinant. There are two alternative evolutionary mechanisms by which the various strain groups might have evolved: either by recombination between strains carrying virulence (or avirulence) determinants that evolved once only, or alternatively, by independent evolution of at least one virulence (or avirulence) determinant in distinct phylogenetic branches. These alternative hypotheses were investigated by (i) determining the complete genomic sequence of a group 1 and a group 4 strain and (ii) comparing the completely sequenced genomes of six isolates representative of the four strain groups. The analysis revealed the same phylogeny for all five PVX genes. Thus, there is no evidence that the PVX strain groups evolved by recombination.