Jones
R.A.C. and B.D.Harrison 1969, The behavior of potato mop-top virus in soil and
evidence for its transmission by Spongospora subterranea (Wallr.) Lagerh. Ann.
appl. Biol., 63, 1-17.
Jones
R.A.C. and B.D.Harrison 1972, Ecological studies on potato mop-top virus in
Scotland Ann. appl. Biol., 71, 47-57.
Cooper I.J.
and B.D.Harrison 1973, Distribution of potatoe Mop-top-virus in Scotland in
relation to soil and climate Pl. Path., 22, 73-78.
Jones
R.A.C. 1975, Presence of potato mop-top virus in Bolivia Plant Dis. Rep., 59,
193.
Cooper
J.I., R.A.C.Jones and B.D.Harrison 1976, Field and glasshouse experiments on
the control of potatoe mop-top-virus Ann.appl.Biol., 83, 215-230.
El Fahl
A.M. and E.L.Calvert 1976, unbek.: Arbeit ueber Duengung und Befall mit
Mop-top-Virus in Irland zit.in "Zoosporic plant pathogens" Buczacki
S.T.(Ed.) S 211.
Harrison
B.D. 1977, Ecology and control of viruses with soil inhabiting vectors Ann.
Rev. Phytopathol., 15, 331-360.
Richardson
D.E. and W.M. French, 1978, Evidence for the possible transmission of PVX by Spongospora
subterranea. Abstr. of confer. papers.7th triennial conference of the European Asociation
for Potato research, Warsaw, Poland, 26June-1July 1978. Path/Viro.
Roberts
I.M. and B.D. Harrison, 1979, Detection of potato leafroll and mop-top viruses
by immunosorbent electron microscopy. Ann. appl. Biol., 93, 289-297.
Kurppa
A.H.J., 1988, Reaction of cultivars to primary and secondary infection by
potato mop-top virus and strategies for virus detection. Abstracts of a
conference on soil-borne viruses and their vectors, 27-29 octobre 1988,
Malmö, 50.
Walsh J.A.,
C.M. Clay, A. Miller and J.C. Rowe, 1989, A fungus-transmitted virus of
watercress. Aspects of Applied Biology
22, 101-108.
Walsh J.A.,
C.M. Clay and A. Miller, 1989, A new virus disease of watercress
inEngland. OEPP/EPPO Bulletin 19,
463-470.
Walsh J.A.,
1990, The epidemiology of watercress yellow spot virus. In: Proceedings of the
First Symposium of the International Working Group on Plant Viruses with Fungal
Vectors, Braunschweig, Germany, August 1990, (ed. R. Koenig),
Schriftenreihe der Deutschen Phytomedizinischen Gesellschaft, Stuttgart, Ulmer,
pp.173-176.
Walsh J.A.,
1992, The epidemiology and control of watercress yellow spot virus. 7th
Conference ISHS Vegetable Virus Working Group. Recent Advances in Vegetable
Virus Research, Athens, Greece, July 12-16, 1992. 2pp.
Walsh J.A.
and C.M. Clay, 1993, A summary of research on watercress yellow spot virus and
its fungal vector Spongospora subterranea f.sp. nasturtii. Proceedings of the
Second Symposium of the International Working Group on Plant Viruses with
Fungal Vectors, Montreal, Canada, 25th-27th July 1993, pp 111-114.
Arif M., L.
Torrance and B. Reavy, 1994, Improved efficiency of detection of potato mop-top
furovirus in potato tubers and in the roots and leaves of soil-bait plants.
Potato Research 37, 373-381.
Arif M., L.
Torrance and B. Reavy, 1995, Acquisition and transmission of potato mop-top
furovirus by a culture of Spongospora subterranea f.sp. subterranea derived
from a single cystosorus. Ann. appl. Biol 126, 493-503.
Chen J.P.
and T.M.A. Wilson, 1995, Taxonomy of rigid rod shaped viruses transmitted by
fungi. Agronomie 15 (7-8), 421-426.
Clay C.M.
and J.A. Walsh, 1995, Cytopathic alterations in watercress leaf tissue infected
with watercress yellow spot virus. Proceedings of the 8th International Conference
on Virus Diseases of Vegetables, Prague, Czech Republic, 9-15 July 1995, ISHS
Vegetable Virus Working Group, 133-135.
Merz U.,
1995, PMTV-like particles inside resting spores of Spongospora subterranea.
Journal of Phytopathology 143 (11-12), 725-727.
Reavy B.,
M. Arif, S. Kashiwazaki, K.D. Webster and H. Barker, 1995, Immunity to potato
mop-top virus in Nicotiana benthamiana plants expressing the coat protein gene
is effective against fungal inoculation of the virus. Molecular Plant-Microbe Interactions
8(2), 286-291.
Dessens
J.T. and M.Meyer, 1996. Identification of structural similarities between putative
transmission proteins of Polymyxa and Spongospora transmitted Bymoviruses and
Furoviruses. Virus Genes 12 (1), 95-99.
Nielsen
S.L. and J.P. Molgaard, 1997. Incidence, appearance and development of potato
mop-top furovirus-induced spraing on potato cultivars and the influence on
yield, distribution in Denmark and detection of the virus in tubers by ELISA.
Potato Research 40, 101-110.
Reavy B. M.
Arif, G.H. Cowan and L. Torrance, 1998. Association of sequences in the coat
protein/readthrough domain of potato mop-top virus with transmission by Spongospora
subterranea. Journal of General Virology 79 (10), 2343-2347.
Barker H,
B. Reavy and K.D. McGeachy, 1998. High level of resistance in potato to potato mop-top
virus induced by transformation with the coat protein gene. European Journal of
Plant Pathology 104, 737-740.
Torrance
L., G.H. Cowan, M.A. Sokmen and B.A. Reavy, 1999, Naturally occurring deleted
form of RNA 2 of Potato mop-top virus. Journal of General Virology 80 (8), 2211-2215.
Arif M., B.
Reavy and L. Torrance, 1999, Read-through protein gene of potato mop-top
furovirus is associated with acquisition and transmission of the virus by Spongospora
subterranea f.sp subterranea. Pakistan Journal of Botany 31 (1), 125-136.
Germundsson
A., M. Sandgren, E. Savenkov and J.T.I. Valkonen, 2000. Spraing in potato - a
complicated problem with several causes. Vaxtskyddsnotiser 64 (3-4), 51-58.
Sandgren M., R.L. Plaisted, K.W. Watanabe, S. Olsson and J.P.T. Valkonen, 2002. Evaluation of some North and South American potato breeding lines for resistance to Potato mop-top virus in Sweden. American Journal of potato research 79 (3): 205-210.
Germundsson
A., M. Sandgren, H. Barker, E.I. Savenkov and J.P.T. Valkonen, 2002, Initial infection
of roots and leaves reveals different resistance phenotypes associated with
coat protein gene-mediated resistance to Potato mop-top virus. J. of General
Virology 83, 1201-1209.
Andersen
B.A.B., M. Nicolaisen and S.L. Nielsen, 2002, Alternative hosts for potato mop-top
virus, genus Pomovirus and its vector Spongospora subterranea f.sp.
subterranea. Potato Research 45, 37-43.
Nielsen S.L. and M. Nicolaisen, 2003. Identification of two nucleotide sequence sub- groups
within Potato mop-top virus. Archives of Virology 148 (2): 381-388
Cerovska
N., T. Moravec, P. Rosecka, P. Dedic and M. Filigarova, 2003, Production of polyclonal
antibodies to a recombinant coat protein of Potato mop-top virus. Journal of
Phytopathology 151 (4): 195-200
Pecenkova
T., T. Moravec, M. Filigarova, P. Rosecka and N. Cerovska, 2004, Extended
sequence analysis of three Danish potato mop-top virus (PMTV) isolates. Virus
Genes 29, 249-255.
Montero-Astua
M., V. Vasquez, W. Turechek and C. Rivera, 2006. Spongospora subterranean as a
vector of Potato mop-top pomovirus in Costa Rica. Phytopathology 96 (6) Suppl.
S, 164
Tenorio J.,
Y. Franco, C. Chuquillanqui, R.A. Owens and L.F. Salazar, 2006. Reaction of
potato varieties to Potato mop-top virus infection in the Andes. Am. J. Pot.
Res. 83, 423-431.
Cerovska
N., T. Pecenkova, M. Filigarova and P. Dedic, 2007. Sequence analysis of the Czech
potato mop-top virus (PMTV) isolate Korneta-Nemilkov. Folia
Microbiologica 52 (1), 62-64.
Kirk H.G.,
2008. Mop-top Virus, relationship to its vector. American Journal of Potato
Research 85 (4), 261-265. Davey T., 2009, An Accelerated Soil Bait Assay for
the Detection of Potato Mop Top Virus in Agricultural Soil. Methods in
Molecular Biology 259-265.
Latvala-Kilby S., M. Aura, N. Pupola, A. Hannukkala and JPT Valkonen, 2009. Detection of Potato mop-top virus in potato tubers and sprouts: Combinations of RNA2 and RNA3 variants and incidence of symptomless infections. Phytopathology 99 (5), 519-531
Santala J.,
O. Samuilova, A. Hannukkala et al., 2010. Detection, distribution and control of Potato
mop-top virus, a soil-borne virus, in Northern Europe. Annals of Applied
Biology 157(2), 163-178.
Carnegie
S.F., T. Davey and G.S. Saddler, 2010. Effect of temperature on the
transmission of potato mop-top virus from seed tuber and by its vector,
Spongospora subterranea. Plant Pathology 59 (1), 22-30
Nakayama
T., T. Maoka, T. Hataya, M. Shimizu, H. Fuwa, S. Tsuda and M. Mori, 2010.
Diagnosis of Potato Mop-Top Virus in Soil Using Bait Plant Bioassay and
RT-PCR-microplate Hybridization. American Journal of Potato Research 87(2), 218-225
Carnegie,
S.F., T. Davey, and G.S. Saddler, 2012. Prevalence and distribution of Potato
mop-top virus in Scotland. Plant Pathology 61 (4), 623-631.
Arif, M.,
M. Ali, A. Rehman and M. Fahim, 2013, Occurrence of potato mop-top virus in Northwest
of Pakistan. European Journal of Plant Pathology 137 (4), 787-796.
Arif M., M.
Ali, A. Rehman and M. Fahim, 2013. Detection of potato mop-top virus in soils and
potato tubers using bait-plant bioassay, ELISA and RT-PCR. Journal of
Virological Methods 195, 221-227.
Davey, T.,
Carnegie, S.F., Saddler, G.S., et al., 2014.The importance of the infected seed
tuber and soil inoculum in transmittingPotato mop-top virus to potato plants.
Plant Pathology 63 (1), 88-97.
Beuch, U., Berlin, S., Akerblom, J., et al., 2015. Diversity and evolution of potato
mop-top virus. Archives of Virology 160 (5), 1345-1351.
Domfeh, O.,
Bittara, F.G. and Gudmestad, N.C., 2015. Sensitivity of Potato Cultivars to
Potato mop-top virus-Induced Tuber Necrosis. Plant Disease 99 ( 6), 788-796.
Domfeh, O., Thompson, A. L. and Gudmestad, N. C., 2015. Sensitivity to Tuber Necrosis Caused by Potato Mop-Top Virus in Advanced Potato (Solanum tuberosum L.) Breeding Selections. American J. of Potato Research 92 (6), 636-647
Mallik I and M.C. Gudmestad, 2015. First report of Potato mop top virus causing potato tuber necrosis in Colorado and New Mexico. Plant Disease 99 (1), 164
Arif M., Ruby G., Rehmann A. et al., 2016. Screening of Potato Cultivars to Potato Mop-Top
Virus in Northwestern Pakistan. Potato research 59 (4), 295-312.
Kalischuk M., Lynn J. and Kawchuk L., 2016. First report of potato mop-top virus infecting potatoes in Alberta. Plant Disease 100, 2544.
Yellareddygari S.K.R., O. Domfeh O., F.G. Bittara et al., 2017. Analysis of Potato Mop-Top Virus Survival Probability in Post-Harvest Storage. American Journal of Potato Research 94 (6), 632-637.
Yellareddygari S.K.R., J.L. Whitworth and N.C. Gudmestad, 2018. Assessing potato cultivar sensitivity to tuber necrosis caused by potato mop-top virus. Plant Disease 102 (6), 1148-1153.
Ipsita M., A.C. Fulladolsa, S.K.R. Yellareddygari, F.G. Bittara, A.O. Charkowski and N.C. Gudmestad, 2019. Detection and Quantification of Spongospora subterranea Sporosori in Soil by Quantitative Real-Time PCR. Plant Disease, https://doi.org/10.1094/PDIS-05-19-1092-RE.
Binod P., I. Mallik, and N. C. Gudmestad, 2019. Development and application of a reverse transcription real-time PCR (RT-qPCR) and droplet digital PCR (RT-ddPCR) assays for the direct detection of Potato mop top virus in soil. Phytopathology, DOI: 10.1094/PHYTO-05-19-0185-F.
Recombinase Polymerase Amplification (RPA) for the Rapid Isothermal Detection of Spongospora subterranea f. sp. subterranea and Potato Mop-Top Virus. American Journal of Potato Research 96 (6), 617-624, DOI: 10.1007/s12230-019-09750-7
Zhou H.L., Y. Lei, P. Wang et al., 2019. Development of SYBR Green real-time PCR and nested RT-PCR for the detection of Potato Mop-top Virus (PMTV) and viral surveys in Progeny tubers derived from PMTV infected Potato tubers. Molecular and Cellular Probes, 47, 1-6; DOI: 10.1016/j.mcp.2019.101438
Zhai Y., Mallik I., Hamid A., 2019. Genetic diversity in potato mop-top virus populations in the United States and a global analysis of the PMTV genome. European J. of Plant Pathology, https://doi.org/10.1007/s10658-019-01836-6
Pandey B., I. Mallik and M.C. Gudmestad, 2020. Development and application of a real-time reverse-transcription PCR and droplet digital PCR assays for the direct detection of Potato mop top virus in soil. Phytopathology 110 (1), 58-67
Nie X., M. Singh, D. Chen et al., 2020. Development of High Resolution DNA Melting Analysis for simultaneous detection of Potato Mop-Top Virus and its vector, Spongospora subterranea, in soil. Plant Disease 105 (4), 948-957; https://doi.org/10.1094/PDIS-06-20-1321-RE
Zhai Y. B. Davenport, K. Schuetz and H.R. Pappu, 2022. An on-site adaptable test for rapid and sensitive detection of Potato mop-top virus, a soil-borne virus of potato (Solanum tuberosum). PLoS ONE 17(8): e0270918. https://doi.org/10.1371/
journal.pone.0270918
Lai X., et al., 2022. Comparison of potato viromes between introduced and indigenous varieties. Frontiers in Microbiology, https://doi.org/10.3389/fmicb.2022.809780
Garcia A., et al., 2022. Indexing of RNA viruses in certified and uncertified potato seed-tubers from Solanum tuberosum cv. Diacol Capiro, and S. phureja cv. Criolla Colombia: a pilot study. Archives of Phytopathology and Plant Protection, https://doi.org/10.1080/03235408.2022.2081760
Frampton R.A., S.M. Addison, F. Kalamorz and G.R. Smith, 2022. Genomes of potato Mop-Top Virus (Virgaviridae: Pomovirus) isolates from New Zealand and their impact on diagnostic methods. Online: https://doi.org/10.1094/PDIS-01-22-0192-SC
Grimm K.D.S., R.A. Quick, L. Cimrhakl, Ch. Brown and M.J. Pavek, 2022. Detection of Potato Mop-Top Virus in Potato Seed Lots Entering Washington State. American J. of Potato Research, 99, 390-394.
Baley N. et al., 2022. Echo Russet: A Russet Potato Variety with a High Yield of Marketable Tubers, High Processing Quality, and Few Tuber Defects. American J. of Potato Research, https://doi.org/10.1007/s12230-022-09891-2
Anglin N.L., S.K.R. Yellarreddygari et al., 2023. A Genome Wide Association Study (GWAS) Identifies SNPs Associated with Resistance to Tobacco Rattle Virus (TRV) and Potato Mop-Top Virus (PMTV) in a Tetraploid Mapping Population of Potato.
American Journal of Potato Research, DOI 10.1007/s12230-023-09933-3
Garcia A., M. Higuita et al., 2023. Prevalence of RNA viruses in certified, and informal potato seed tubers in the province of Antioquia (Colombia). Archives of Phytopathology and Plant Protection, DOI 10.1080/03235408.2023.2170208