The Recombinant Potato virus Y (PVY) Strain, PVYNTN, Identified in Potato Fields in Victoria, Southeastern Australia

Potato virus Y (PVY) is one of the main viruses affecting potato in Australia. However, molecular characterization of PVY isolates circulating in potato in different states of Australia has not yet been thoroughly conducted. Only nonrecombinant isolates of three biological PVY strains collected from potato were reported previously from Western Australia and one from Queensland. Here, PVY isolates collected from seed potato originating in Victoria, Australia, and printed on FTA cards, were subjected to strain typing by RT-PCR, with three isolates subjected to whole genome sequencing. All the 59 PVY isolates detected during two growing seasons were identified to be recombinants based on two RT-PCR assays. No nonrecombinant PVY isolates were identified. All the RT-PCR typed isolates belonged to the PVYNTN strain. Sequence analysis of the whole genomes of three isolates suggested a single introduction of the PVYNTN strain to Australia but provided no clues as to where this introduction originated. Given the association of the PVYNTN strain with potato tuber damage, growers in Australia should implement appropriate strategies to manage PVYNTN in potato.

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Detection and genome characterization of Potato virus Y isolates infecting potato (Solanum tuberosum L.) in La Union (Antioquia, Colombia)

Agronomía Colombiana ◽

10.15446/agron.colomb.v34n3.59014 ◽

2016 ◽

Vol 34 (3) ◽

pp. 317-328 ◽

Cited By ~ 4

Author(s):

Pablo Gutiérrez S. ◽

Mauricio Marín M. ◽

Daniel Muñoz E.

Keyword(s):

Solanum Tuberosum ◽

Potato Virus ◽

Potato Virus Y ◽

Seed Tuber ◽

Rt Pcr ◽

Potato Plants ◽

Nextgeneration Sequencing ◽

Prevalent Strain ◽

Detailed Molecular Analysis

Potato virus Y (PVY) is one of the most severe viruses affecting the production of potato (Solanum tuberosum) in the world. This study presents a detailed molecular analysis using nextgeneration sequencing (NGS), IC-RT-qPCR and RT-PCR on the PVY isolates infecting seed-tubers and foliage of potato plants cv. Diacol-Capiro in La Union (Antioquia, Colombia). Analysis of incidence by IC-RT-qPCR in 15 random leaf samples of three cultivation plots and fifteen sprouting tuber eye-buds reveal infection levels between 13.4 and 80%; a higher incidence of 86.7% was observed in seed-tuber samples with threshold cycle (Ct) values as low as 24.3. Genome assembly from a bulk of foliage samples resulted in a consensus PVY genome (PVY_LaUnionF) of 9,702 nt and 399 polymorphic sites within the polyprotein ORF; while the assembled genome from sprouts of tubers has 9,704 nt (PVY_LaUnionT) and contained only six polymorphic nucleotide sites. Phylogenetic analysis demonstrates that the PVY isolates from leaf samples are in the recombinant PVYNTN group (sequence identity >99%); while those from tuber sprouts are in the PVYN/NTN group with identities above 95%. Sanger sequencing of viral capsid suggests the presence of a third variant related to PVYO, a prevalent strain reported in potato fields worldwide.

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Occurrence and Molecular Characterization of Recombinant Potato virus YNTN Isolates from Sulawesi, Indonesia

Plant Disease ◽

10.1094/pdis-07-15-0817-re ◽

2016 ◽

Vol 100 (2) ◽

pp. 269-275 ◽

Cited By ~ 11

Author(s):

Mohamad Chikh-Ali ◽

Nilsa A. Bosque-Pérez ◽

Dalton Vander Pol ◽

Dantje Sembel ◽

Alexander V. Karasev

Keyword(s):

Potato Virus ◽

Potato Virus Y ◽

Potato Cultivar ◽

Whole Genome ◽

Chain Reaction ◽

Recombinant Type ◽

Whole Genomes ◽

Polymerase Chain ◽

First Time

The importance of potato has increased dramatically in Indonesia over the last three decades. During this period, ‘Granola’, a potato cultivar originally from Germany, has become the most common cultivar for fresh consumption in Indonesia. In August 2014, a survey was conducted in Sulawesi, where potato fields cultivated with Granola and its selection, ‘Super John’, were sampled for Potato virus Y (PVY) presence. PVY was found in Sulawesi for the first time. Samples determined to be positive for PVY were subsequently typed to strain using reverse-transcription polymerase chain reaction assays. All PVY isolates sampled were identified as PVYNTN recombinants, with three recombination junctions in P3, VPg, and CP regions of the genome. Three local PVY isolates were subjected to whole-genome sequencing and subsequent sequence analysis. The whole genomes of the Indonesian PVYNTN isolates I-6, I-16, and I-17 were found to be closely related to the European PVYNTN-A. This recombinant type was shown previously to cause potato tuber necrotic ringspot disease (PTNRD) in susceptible potato cultivars. The dependence of potato farmers on mostly a single cultivar, Granola, may have given a competitive advantage to PVYNTN over other PVY strains, resulting in the predominance of the PVYNTN recombinant. The dominance of PVYNTN in Sulawesi, and possibly in Indonesia as a whole, represents a potential risk to any newly introduced potato cultivar to the country, especially cultivars susceptible to PTNRD.

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First Report of Potato virus Y in Potato in Tajikistan

Plant Disease ◽

10.1094/pdis-03-12-0249-pdn ◽

2012 ◽

Vol 96 (7) ◽

pp. 1074-1074 ◽

Cited By ~ 2

Author(s):

O. J. Alabi ◽

J. M. Crosslin ◽

N. Saidov ◽

R. A. Naidu

Keyword(s):

Potato Virus ◽

Potato Virus Y ◽

Solanum Tuberosum L ◽

Disease Incidence ◽

Pairwise Comparison ◽

Mixed Infections ◽

Rt Pcr ◽

Fta Cards ◽

Tuber Necrosis ◽

Two Samples

Potato (Solanum tuberosum L.) is widely grown as a staple food and cash crop in Tajikistan and is an important food security crop in the country. In June 2011, we conducted a survey of potatoes in farmers' fields in the Buston and Dushanbe regions (about 200 miles apart) of Tajikistan. Potato plants with stunted growth and leaves showing chlorotic spots, curling, and necrotic spots and rings were observed with the disease incidence monitored in 10 fields each in Buston and Dushanbe areas varying between 10 and 60%. Representative samples from symptomatic plants tested positive for Potato virus Y (PVY) using virus-specific immunostrips (Agdia Inc., Elkhart, IN). Leaf samples from symptomatic plants were collected from Buston and Dushanbe areas, imprinted on FTA Classic Cards (Whatman International Ltd., Maidstone, UK), air dried, and shipped to the lab at Washington State University for confirmatory diagnostic tests. Total nucleic acids were eluted from FTA cards (1) and subjected to reverse transcription (RT)-PCR with primers (PVY/Y4A and PVY/Y3S) specific to the coat protein of PVY (3). Samples infected with PVY ordinary strain (PVYO), tuber necrosis strain (PVYNTN), tobacco veinal necrosis strains (PVYEU-N and PVYNA-N), and a recombinant strain (PVYN:O) were included as references to validate RT-PCR results. A single DNA product of approximately 480 bp was amplified from potato samples that tested positive with PVY-specific immunostrips. The amplified fragments from two samples from Dushanbe and six from Buston areas were cloned separately into pCR2.1 (Invitrogen Corp., Carlsbad, CA) and two independent clones per amplicon were sequenced from both orientations. Pairwise comparison of these sequences showed 90 to 100% identity among the cloned amplicons (GenBank Accession Nos. JQ743609 to JQ743616) and 90 to 100% with corresponding nucleotide sequence of reference PVY strains (GenBank Accession Nos. JQ743617 to JQ743621). A global phylogenetic analysis of sequences revealed the presence of PVYO in both samples from Dushanbe and one sample from Buston regions and presence of PVYNTN in the remaining five samples from the Buston region. Because of the possible occurrence of mixed infections of PVY strains (2), further studies are needed to determine the presence of mixed infections of two or more strains of PVY and their specificity to potato cultivars. To our knowledge, this study represents the first confirmed report of two distinct strains of PVY in potato in Tajikistan. The occurrence of PVYNTN, a quarantine pathogen in many countries (2), warrants additional investigations to improve sanitary status of potato fields and to facilitate the availability of virus-free seed in clean plant programs for significant yield increases in Tajikistan. References: (1) O. J. Alabi et al. J. Virol. Methods 154:111, 2008. (2) S. Gray et al. Plant Dis. 94:1384, 2010. (3) R. P. Singh et al. J. Virol. Methods 59:189, 1996.

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Identification and Molecular Characterization of Recombinant Potato Virus Y (PVY) in Potato from South Korea, PVYNTN Strain

Plant Disease ◽

10.1094/pdis-05-18-0715-re ◽

2019 ◽

Vol 103 (1) ◽

pp. 137-142 ◽

Cited By ~ 3

Author(s):

Mohamad Chikh-Ali ◽

Mariana Rodriguez-Rodriguez ◽

Kelsie J. Green ◽

Dong-Jun Kim ◽

Sang-Min Chung ◽

...

Keyword(s):

South Korea ◽

Whole Genome Sequencing ◽

Molecular Characterization ◽

Genome Sequencing ◽

Potato Virus ◽

Potato Virus Y ◽

Potato Production ◽

Whole Genome ◽

Rt Pcr

Potato is an important source of food in South Korea, and viruses represent a significant threat to sustainable and profitable potato production. However, information about viruses affecting the potato crop in South Korea is limited. In 2017, potato plants of five cultivars exhibiting foliar mosaic, crinkling, and mottle were collected in two seed potato production areas, in Gangwon-do and Jeollabuk-do Provinces, and subjected to virus testing and characterization. Potato virus Y (PVY) was found associated with mosaic symptoms, and samples were characterized using reverse transcription polymerase chain reaction (RT-PCR) and whole genome sequencing. All analyzed PVY-positive samples were found to represent the same recombinant PVY strain: PVYNTN. Three PVY isolates were subjected to whole genome sequencing using overlapping RT-PCR fragments and Sanger methodology, and all three were confirmed to represent strain PVYNTNa after a recombination analysis of the complete genomes. In phylogenetic analysis, the three South Korean isolates were placed most closely to several PVYNTNa isolates reported from Japan and Vietnam, suggesting a common source of infection. This is the first report and complete molecular characterization of a PVYNTN strain present in the country, and because this strain induces tuber necrotic ringspot disease in susceptible cultivars of potato, appropriate management tools need to be implemented to mitigate potential tuber quality losses.

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Effects of Crop Management Practices on Current-Season Spread of Potato virus Y

Plant Disease ◽

10.1094/pdis-04-13-0403-re ◽

2014 ◽

Vol 98 (2) ◽

pp. 213-222 ◽

Cited By ~ 15

Author(s):

Tyler D. B. MacKenzie ◽

Manphool S. Fageria ◽

Xianzhou Nie ◽

Mathuresh Singh

Keyword(s):

Potato Virus ◽

Management Practices ◽

Potato Virus Y ◽

Mineral Oil ◽

Enzyme Linked Immunosorbent Assay ◽

Rt Pcr ◽

Current Season ◽

Growing Seasons ◽

Elisa Testing ◽

Major Factors

The current-season spread of Potato virus Y (PVY) was monitored in 19 fields under various management practices in New Brunswick, Canada, through the 2011 and 2012 growing seasons. The focus of this study was to evaluate the role of seedborne PVY inoculum, aphid vector abundance, and the numbers, timing, and types of insecticide and mineral oil sprays, and to confirm the reliability and forecasting capacity of midseason PVY testing. In each field, 100 to 110 virus-free plants were identified shortly after emergence and were assessed four times from early July to early September (after top-kill) with enzyme-linked immunosorbent assay (ELISA) and reverse-transcription polymerase chain reaction (RT-PCR) to track PVY spread. In addition, tubers harvested during development in August and after top-kill were grown-out in the greenhouse for ELISA testing. PVY spread to selected virus-free plants varied widely, ranging from 0 to 76.2% across all studied fields. Of the 19 fields over two seasons, 10 fields were planted with no detectable seedborne PVY, and they showed 0 to 8.7% (mean 2.9%) PVY spread by harvest. The remaining nine study fields with 0.9 to 5.8% seedborne PVY showed 1 to 76.2% (mean 15.2%) PVY spread by harvest. PVY spread was detected in most fields during midseason testing with ELISA and RT-PCR; all tests correlated well with final PVY rates after top-kill, though RT-PCR detection in developing tubers was most sensitive and correlated. Logistic regression modeling was used to identify major factors in PVY spread, including seedborne PVY, early-season aphid abundance, and the numbers of insecticide and mineral oil sprays. The best-fitting model, constructed using these factors as well as a measurement of July PVY incidence (ELISAJuly), strongly explained PVY spread by harvest, with the most significant management factor being the number of mineral oil sprays supplemented with insecticide used during the growing season. A similar model fitted without the ELISAJuly did not adequately predict ultimate PVY spread. The analysis suggests that mineral oil alone was effective at lowering PVY spread, and more effective when combined with insecticide, particularly when used early in the season. No evidence was found for differences in PVY spread across the eight cultivars used or across the range of mineral oil application rates, whereas some evidence was found for differences in the effectiveness of different insecticide types.

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A Multiplex PCR Assay to Characterize Potato virus Y Isolates and Identify Strain Mixtures

Plant Disease ◽

10.1094/pd-90-0935 ◽

2006 ◽

Vol 90 (7) ◽

pp. 935-940 ◽

Cited By ~ 121

Author(s):

James H. Lorenzen ◽

Lisa M. Piche ◽

Neil C. Gudmestad ◽

Teresa Meacham ◽

Pat Shiel

Keyword(s):

Potato Virus ◽

Potato Virus Y ◽

Infection Type ◽

Mixed Infections ◽

Rt Pcr ◽

Pcr Assay ◽

Single Strain ◽

Multiplex Pcr Assay ◽

Strain Type ◽

Pcr Assays

Potato virus Y (PVY) has become a serious problem for the seed potato industry, with increased incidence and rejection of seed lots submitted for certification. New PVY strains and strain variants have emerged in recent decades in Europe and North America, including the PVYN strain that causes veinal necrosis in tobacco, and strain variants that represent one or three recombination events between the common strain (PVYO) and PVYN. Several reverse transcription-polymerase chain reaction (RT-PCR) assays have been described that characterize PVY isolates as to strain type, but they are limited in their ability to detect some combinations of mixed strain infections. We report here the development of a single multiplex RT-PCR assay that can assign PVY strain type and detect mixed infections with respect to the major strain types. Validation of this assay was achieved using 119 archived PVY isolates, which had been previously characterized by serology and bioassay and/or previously published RT-PCR assays. Results for single-strain isolates were comparable to previous results in most cases. Interestingly, 16 mixed infections were distinguished that had previously gone undetected. The new multiplex RT-PCR assay will be useful for researchers and seed production specialists interested in determining PVY infection type using a single assay.

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Potato Virus Y (PVY) Isolates from Solanum betaceum Represent Three Novel Recombinants Within the PVYN Strain Group and Are Unable to Systemically Spread in Potato

Phytopathology ◽

10.1094/phyto-04-20-0111-r ◽

2020 ◽

Vol 110 (9) ◽

pp. 1588-1596

Author(s):

Kelsie J. Green ◽

Cassandra N. Funke ◽

Jeffrey Chojnacky ◽

Robert A. Alvarez-Quinto ◽

Jose B. Ochoa ◽

...

Keyword(s):

Potato Virus ◽

Potato Virus Y ◽

Systemic Infection ◽

Rt Pcr ◽

Small Tree ◽

Whole Genomes ◽

Specific Strain ◽

Slight Growth ◽

Solanum Betaceum ◽

Tree Tomato

Tamarillo, or tree tomato (Solanum betaceum), is a perennial small tree or shrub species cultivated in subtropical areas for fresh fruit and juice production. In Ecuador, tamarillo orchards are affected by several viruses, with one previously identified as potato virus Y (PVY); however, the specific strain composition of PVY in tamarillo was not determined. In 2015 and 2016, eight tamarillo plants exhibiting symptoms of leaf drop, mosaic, and mottled fruit were sampled near Tumbaco and Quito, Ecuador. These tamarillo PVY isolates were able to systemically infect tobacco, Nicotiana benthamiana, naranjilla, and tamarillo. Seven of the eight PVY isolates from tamarillo exhibited N-serotype, while one of the PVY isolates studied, Tam15, had no identifiable serotype. One isolate, Tam17, had N-serotype but produced asymptomatic systemic infection in tobacco. In tamarillo, four tamarillo isolates induced mosaic and slight growth retardation and were unable to systemically infect pepper or potato. Tamarillo, on the other hand, was unable to support systemic infection of PVY isolates belonging to the PVYO and PVYEu-N strains. The whole genomes of eight PVY isolates were sequenced from a series of overlapping RT-PCR fragments. Phylogenetically, tamarillo PVY isolates were found to belong to the large PVYN lineage, in a new tamarillo clade. Recombination analysis revealed that these tamarillo PVY isolates represent at least three novel recombinant types not reported before. The combination of the biological and molecular properties found in these eight PVY isolates suggested the existence of a new tamarillo strain of PVY that may have coevolved with S. betaceum.

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Biological and molecular characterization of various isolates of Potato virus Y-N (PVY-N) strain group

Plant Protection Science ◽

10.17221/10469-pps ◽

2017 ◽

Vol 38 (SI 2 - 6th Conf EFPP 2002) ◽

pp. 278-280

Author(s):

J. Ptáček ◽

P. Dědič ◽

J. Matoušek

Keyword(s):

Potato Virus ◽

Potato Virus Y ◽

Molecular Genetic ◽

Rt Pcr ◽

Nucleotide Level ◽

Tobacco Plants ◽

Specific Identification ◽

Pcr Products ◽

Necrotic Symptoms

Fourteen Potato virus Y (PVY) isolates were characterized. They represented PVYN strain only. However, application of serological and molecular genetic methods led to a more complicated characterization. For example, five isolates induced necrotic symptoms on tobacco plants typical of PVYN, despite reacting as PVYO serologically. Moreover, the PVY isolates were not identical according to molecular genetic properties. Typical PVYNTN PCR products were observed for 11 isolates, but four of them (Hr220-5, Hr387-7, Nord 242 and Syn1Scot) did not produce potato tuber necrotic symptoms in infected cultivars. An immunocapture RT-PCR probing was developed using a set of 24 primer pairs derived from eight regions of the PVY genome. Using this method, five out of seven PVYNTN isolates including the Czech standard PVYNTN from the potato cv. Nicola were found to be identical. However, two PVYNTN isolates and all the other probed PVY samples showed unique patterns, suggesting specific differences at the nucleotide level. This method enabled specific identification of individual isolates variability even within different PVY strains.

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First Report of Recombinant Potato virus Y Strains in Potato in Jalisco, Mexico

Plant Disease ◽

10.1094/pdis-10-12-0919-pdn ◽

2013 ◽

Vol 97 (3) ◽

pp. 430-430 ◽

Cited By ~ 4

Author(s):

A. Quintero-Ferrer ◽

A. V. Karasev

Keyword(s):

Seed Potato ◽

Potato Virus ◽

Potato Virus Y ◽

Potato Production ◽

The State ◽

Rt Pcr ◽

First Report ◽

Fta Cards ◽

The One ◽

Production Areas

Potato virus Y (PVY) is a serious problem for potato production worldwide. The virus reduces both tuber yield and quality, and recent spread of recombinant strains of PVY in potato production areas is largely credited with the spread of potato tuber necrotic ringspot disease (PTNRD) (1). In Mexico, recombinant strains of PVY were reported in at least two states, Chihuahua (4) and the State of Mexico (3); however, no surveys have been conducted in other potato-producing areas, and the spectrum of PVY isolates circulating in the country has remained uncharacterized. In October 2011, a small-scale survey of seed potato was conducted in the state of Jalisco, Mexico, to identify PVY isolates present in fields. Twelve seed potato fields were inspected visually. These represented various generations of seed potato, from nuclear to G2. Leaf samples were collected from plants displaying mosaic, crinkling, and yellowing symptoms, and were tested for PVY. Fifty samples were collected from cultivars Fabula, Mondial, Fianna, Gigant, Caesar, and Adora. Of the 50 leaf samples collected, seven were PVY-positive using the Immuno-strip Kit (Agdia, Elkhart, IN), and six of these were determined to have a N-serotype according to the typing by the Pocket Diagnostics lateral flow kit (Forsite Diagnostics, Ltd., York, UK). PVY-positive samples came from cultivars Fabula (2 with N serotype), Mondial (4 with N serotype), and Fianna (1 with O serotype). Extracts of the seven PVY-positive leaf samples were applied to Whatman FTA cards (Sigma, St. Louis, MO), dried, and transported to the Plant Virology Laboratory at the University of Idaho for further characterization. All samples immobilized on FTA cards were subjected to RNA extraction and standard reverse transcriptase (RT)-PCR typing using a set of PVY-specific primers (2) to determine the strain type. All PVY isolates were recombinant. The six N-serotype samples were found to contain recombinant PVYNTN isolates and produced characteristic bands of 181 and 452 bp in RT-PCR, which indicated the presence of two recombination junctions in the HC-Pro/P3 and VPg regions typical of European PVYNTN isolates. The one O-serotype sample was identified as a recombinant PVYN-Wi/N:O isolate, and produced 181 and 689 bp bands in RT-PCR, which indicated the presence of one recombination junction in the HC-Pro/P3 region. Sequence analysis of RT-PCR products amplified from five samples with N serotype identified them as PVYNTN isolates, and from the one with O serotype identified it as PVYN-Wi/N:O isolate. Sequence comparisons confirmed that N serotype samples contained PVY isolates most closely related to typical PVYNTN sequences (Accession No. EF026075), while the O serotype sample contained the PVY isolate most closely related to PVYN-Wi from Europe (HE608963). The data obtained suggest the presence of two different types of PVY recombinants, PVYNTN and PVYN-Wi, in seed potato in Jalisco. Additional surveillance for these recombinant isolates may be needed, as well as a survey of their effects on tuber quality in production areas. This is the first report of recombinant isolates of PVY often associated with PTNRD circulating in seed potato in Jalisco, Mexico. References: (1) S. M. Gray et al. Plant Dis. 94:1384, 2010. (2) J. H. Lorenzen et al. Plant Dis. 90:935, 2006. (3) V. R. Ramirez-Rodriguez et al. Virol. J. 6:48, 2009. (4) L. Robles-Hernandez et al. Plant Dis. 94:1262, 2010.

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