Publications

2024
  1. Wunsch, A.O.; Miranda Sazo, M.; van Zoeren, J.; Lamour, K.H.; Hurtado-Gonzales, O.P.; Khan, A.; Fuchs, M. Investigating the Role of Viruses in the Rapid Decline of Young Apple Trees in High-Density Orchards in New York. Plants 2024, 13, 2866. https://doi.org/10.3390/plants13202866.
  2. Hoyle, V., McGinnity Schneider, E., McLane, H., Wunsch, A., Fendell-Hummel, H., Cooper, M., and Fuchs, M. 2024. Assessing the Potential of Tortistilus (Hemiptera: Membracidae) from Northern California Vineyards as Vector Candidates of Grapevine Red Blotch Virus. Insects, 15, 664, https://doi.org/10.3390/insects15090664.
  3. Choi, J., Browning, S., Schmitt-Keichinger, C., and Fuchs, M. 2024. Mutations in the WG and GW motifs of the three RNA silencing suppressors of grapevine fanleaf virus alter their systemic suppression ability and affect virus infectivity. Frontiers in Microbiology, 15, https://doi.org/10.3389/fmicb.2024.1451285.
  4. Komondy, L., Hoepting, C., Pethybridge, S.J., Fuchs, M., and Nault, B.A. 2024. Development of a sequential sampling plan for classifying Thrips tabaci (Thysanoptera: Thripidae) populations in onion fields. Journal of Economic Entomology, https://doi.org/10.1093/jee/toae161.
  5. Roy, B. and Fuchs, M. 2024. A single viral amino acid shapes the root system architecture of a plant host upon virus infection. BMC Microbiology, 24, 267, https://doi.org/10.1186/s12866-024-03399-x.
  6. Laroche-Pinel, E., Sawyer, E., Corrales, B., Singh, K., Vasquez, K., Cooper, M.L., Fuchs, M., Brillante, L. 2024. Transitioning from Laboratory Research to Real-World Application: Encouraging Results in the Practical Utilization of Hyperspectral Images for Field Detection of Grapevine Viruses. Acta Horticulturae, 201–208, https://doi.org/10.17660/ActaHortic.2024.1395.27.
  7. Komondy, L., Hoepting, C., Fuchs, M., Pethybridge, S.J., and Nault, B.A. 2024. Identifying onion fields at risk of iris yellow spot virus in New York. Plant Disease, https://doi.org/10.1094/PDIS-10-23-2097-RE.
  8. Flasco, M., Cieniewicz, E., Cooper, M., McLane, H., and Fuchs, M. 2024. Investigating the Latency Period of Grapevine Red Blotch Virus in a Diseased Cabernet franc Vineyard Experiencing Secondary Spread. American Journal of Enology and Viticulture, https://doi.org/10.5344/ajev.2024.24008.
  9. Sawyer, E., Fuchs, M., Cooper, M.L., Corrales, B., Singh, K., Frnzyan, T., Vasquez, K., Laroche-Pinel, E., Brillante, L. 2024. Phenotyping virus-infected grapevine leaves through hyperspectral imaging and machine learning. Acta Horticulturae, 267–272, doi:10.17660/ActaHortic.2024.1390.32.
  10. Flasco, M., Hoyle, V., Powell, G., Seiter, J., Wise, A., Cieniewicz, E.J., Fuchs, M. 2024. Seasonal variation in grapevine red blotch virus titer in relation to disease symptom expression in vineyards. Phytobiomes Journal, 8, 192–200, doi:10.1094/PBIOMES-07-23-0076-R.
  11. Komondy, L., Hoepting, C., Fuchs, M., Pethybridge, S.J., Nault, B.A. 2024.  Spatiotemporal patterns of iris yellow spot virus and its onion thrips vector, Thrips tabaci, in transplanted and seeded onion fields in New York. Plant Disease, 108, 398–406, doi:10.1094/PDIS-05-23-0930-RE.
  12. Wunsch, A., Hoff, B., Miranda Sazo, M., van Zoeren, J., Lamour, K.H., Hurtado-Gonzales, O.P., and Fuchs, M. 2024. Viruses of apple are seedborne but likely not vertically transmitted. Viruses, 16:95, https://doi.org/10.3390/v16010095.
  13. Roy, B.G., Choi, J., and Fuchs, M. 2024. Predictive modeling of proteins encoded by a plant virus sheds a new light on their structure and inherent multifunctionality. Biomolecules, 14:62, https://doi.org/10.3390/biom14010062.
  14. Wunsch, A., van Zoeren, J., Miranda Sazo, M., Khan, A, Hurtado-Gonzales, O.P., and Fuchs, M. 2024. Decline of young apple trees: Lessons learned from a five-year study in an experimental orchard in New York. Fruit Quarterly, 32:32-35, https://nyshs.org/wp-content/uploads/2024/02/NYFQ-BOOK-Spring-2024_FINAL.pdf.
2023
  1. Antolínez, C.A., Chandler, M., Hoyle, V., Fuchs, M., and Rivera, M.J. 2023. Differential flight capacity of Spissistilus festinus (Hemiptera: Membracidae) by sex and age. Journal of Insect Behavior, https://doi.org/10.1007/s10905-024-09846-x.
  2. Flasco, M. and Fuchs, M. 2023. Two distinct genotypes of Spissistilus festinus (Say, 1830) reproduce and differentially transmit grapevine red blotch virus. Insects, 14:10, https://doi.org/10.3390/insects14100831.
  3. Krenz, B., Fuchs, M., and Thompson, J.R. 2023. Grapevine red blotch disease: A comprehensive Q&A guide. PLOS Pathogens, 19:10, https://doi.org/10.1371/journal.ppat.1011671.
  4. Flasco, M. Hoyle, V., Cieniewicz, E.J. and Fuchs, M. 2023. Transmission of grapevine red blotch virus: a virologist’s perspective of the literature and a few recommendations. American Journal of Enology and Viticulture 74, https://doi.org/10.5344/AJEV.2023.23020.
  5. Serrano, A., Wunsch, A., Sabety, J., van Zoeren, J., Basedow, M., Sazo, M.M., Fuchs, M., and Khan, A. 2023. The comparative root system architecture of declining and non-declining trees in two apple orchards in New York. Plants, 12:2644, https://doi:10.3390/plants12142644.
  6. Choi, J., Pakbaz, S., Yepes, L.M., Cieniewicz, E.J., Schmitt-Keichinger, C., Labarile, R., Minutillo, S.A., Heck, M., Hua, J., and Fuchs, M. 2023. Grapevine fanleaf virus RNA1-encoded proteins 1A and 1BHel suppress RNA silencing. Molecular Plant-Microbe Interactions, 22:1997-2017, https://doi.org/10.1094/MPMI-01-23-0008-R.
  7. West-Ortiz, M., Stuehler, D., Pollock, E., Wilson, J.R., Preising, S. Larrea-Sarmiento, A., Alabi, O., Fuchs, M., Heck, M., and Olmedo-Velarde, A. 2023. Characterization of cotton virus A, a novel and distinct member of the genus Caulimovirus with endogenous viral elements in Gossypium spp. bioRxiv, https://doi.org/10.1101/2023.06.14.544975
  8. Flasco, M.T., Cieniewicz, E.J., Pethybridge, S.J., and Fuchs, M.F.F. 2023. Distinct red blotch disease epidemiological dynamics in two nearby vineyards. Viruses, 15:1184, https://doi.org/10.3390/v15051184.
  9. Roy, G.B., DeBlasio, S.L., Yang, Y., Thannhauser, T., Heck, M. and Fuchs, M. 2023. Profiling plant proteome and transcriptome changes upon grapevine fanleaf virus infection. Journal of Proteome Research,
    https://pubs.acs.org/doi/pdf/10.1021/acs.jproteome.3c00069.
  10. Flasco, M., Hoyle, V., Cieniewicz, E.J., Loeb, G., McLane, H., Perry, K.L. and Fuchs, M. 2023. The three-
    cornered alfalfa hopper, Spissistilus festinus, is a vector of grapevine red blotch virus in vineyards. Viruses,
    15:927, https://doi:10.3390/V15040927.
  11. Fuchs, M. 2023. Spatial roguing: a novel leafroll disease management response. Grape and Wine. May issue,
    pp.16-18.
  12. Sawyer, E., Laroche-Pinel, E., Flasco, M., Cooper, M.L., Corrales, B., Fuchs, M. and Brillante L. 2023.
    Convolutional neural network outperforms random forest in phenotyping grapevine red blotch and leafroll
    diseases from hyperspectral images. Frontiers in Plant Science, https://doi:10.3389/FPLS.2023.1117869.
  13. Fuchs, M. 2023. Managing grapevine viruses is possible with sector-wide behavioral and technological changes. Wine Business Monthly, October issue, pp. 48-51.
  14. Fuchs, M. 2023. Red blotch disease ecology. Wine Business Monthly, January issue, pp.152-155.
2022
  1. Roy, B.G. and Fuchs, M. 2022. Herbaceous plant hosts as supermodels for grapevine viruses: a historical perspective. Journal of Plant Pathology, https://doi.org/10.1007/s42161-022-01267-z.
  2. Choi, J., Osatuke, A.C., Griffin, E., Stevens, K., Hwang, M.S., Al Rwahnih, M. and Fuchs, M. 2022. High-
    throughput sequencing reveals single and dual infections of tobacco ringspot virus and tomato ringspot virus
    in pawpaw trees. Plants, 11, 3565. https://doi.org/10.3390/plants11243565.
  3. Fuchs, M., Hily, J-M., Petrzik, K., Sanfaçon, H., Thompson, J.R., van der Vlugt, R. and Wetzel, T. 2022.
    ICTV virus taxonomy profile: Secoviridae. Journal of General Virology, 103:001807,
    https://doi.10.1099/jgv.0.001807.
  4. Li, J., Troendle, J., Gómez, M.I., Ifft, J., Golino, D.A. and Fuchs, M. 2022. Returns to public investments in
    clean plant centers: a case study of leafroll-virus tested grapevines. Journal of Wine Economics, 1-16,
    https://doi.10.1017/jwe.2022.31
  5. Hesler, S., Cox, R., Loeb, G., Bhandari, R., Martinson, T. and Fuchs, M. 2022. Spatial roguing reduces the
    incidence of leafroll disease and curtails its spread in a ‘Cabernet franc’ vineyard in the Finger Lakes region
    of New York. American Journal of Enology and Viticulture 73:227-236.
  6. Hoyle, V., Flasco, M., Choi, J.J., Cieniewicz, E.J., McLane, H.L., Perry, K.L. Dangl, G., Al Rwahnih, M.,
    Heck, M., Loeb, G. and Fuchs, M. 2022. Transmission of grapevine red blotch virus by Spissistilus festinus
    [Say, 1830] (Hemiptera: Membracidae) between free-living vines and Vitis vinifera ‘Cabernet franc’. Viruses,
    14:1156, https://doi.org/10.3390/v14061156.
  7. Fuchs, M. 2022. Managing grapevine viruses is possible with sector-wide behavioral and technological
    changes. Wine Business Monthly, October issue, pp. 48-51
2021
  1. Wunsch, A., van Zoeren, J., Mirando Sazo, M., Basedow, M., Khan, A. and Fuchs, M. 2021. Decline of young trees in high-density orchards: a virologist’s perspective. New York Fruit Quarterly, Winter Issue, 29: 27-30.
  2. Hesler, S., Cox, R. Loeb G. and Fuchs, M. 2021. Vineyard trial demonstrates effectiveness of roguing and replanting to curtail the spread of grapevine leafroll disease. Research Focus in Appellation Cornell, December Issue, pp. 1-8, https://grapesandwine.cals.cornell.edu/sites/grapesandwine.cals.cornell.edu/files/shared/Research%20Focus%202021-4.pdf
  3. Hily, J.M., Poulicard, N., Kubina, J., Reynard, J.S., Garcia, S., Spilmont, A.S., Fuchs, M., Lemaire, O. and Vigne, E. 2021. Metagenomic analysis of nepoviruses: diversity, evolution, and identification of a genome region in members of subgroup A that appears to be important for host range. Archives of Virology, https://doi.org/10.1007/S00705-021-05111-0.
  4. Carvalho Costa, L., Stevens, K., Hu, X., Fuchs , M., Al Rwahnih, M., Diaz-Lara, A., McFarland, C., Foster, J. and Hurtado-Gonzales, O.P. 2021. Identification and characterization of a novel virus associated with an eriophyid mite in extracts of fruit trees leaves. Archives of Virology https://doi.org/10.1007/s00705-021-05174-z.
  5. Fuchs, M. 2021. Closteroviruses (Closteroviridae). In: Encyclopedia of Virology, 4 th Edition, Bamford, D., Zuckerman, M. (Eds), Oxford Academic Press, pp. 336-347.
  6. Fuchs, M., Almeyda, C.V., Al Rwahnih, M., Atallah, S.S., Cieniewicz, E.J., Farrar, K., Foote W., Golino,
    D.A., Gòmez, M., Harper, S.J., Kelly, M.K, Martin, R.R., Martinson, T., Osman, F.M., Park, K., Scharlau, V., Smith, R., Tzanetakis, I.E., Vidalakis, G. and Welliver, R. 2021. Economic studies reinforce efforts to
    safeguard specialty crops in the United States. Plant Disease 105:14-26.
  7. Flasco, M., Hoyle, V., Cieniewicz, E.J., Roy, B.G., McLane, H.L., Perry, K.L., Loeb, G., Nault, B., Heck M. and Fuchs, M. 2021. Grapevine red blotch virus is transmitted by the three-cornered alfalfa hopper in a circulative, nonpropagative transmission mode with unique attributes. Phytopathology, 111: 1851-1861.
  8. Fuchs, M. 2021. Plant resistance to viruses: engineered resistance. In: Encyclopedia of Virology, 4 th Edition, Bamford, D., Zuckerman, M. (Eds), Oxford Academic Press, pp. 52-59.
  9. Osterbaan, L.J., Hoyle V., Curtis, M., DeBlasio, S., Heck, M., Rivera, K. and Fuchs, M. 2021. Identification of protein interactions of grapevine fanleaf virus RNA-dependent RNA polymerase during infection of Nicotiana benthamiana by affinity purification and tandem mass spectrometry. Journal of General Virology 102:001607.
2020
  1. Fuchs, M., Bar-Joseph, M., Candresse, T., Maree, H., Martelli, G.P., Melzer, M.J., Menzel, W., Minafra, A., Sabanadzovic, S. and ICTV Consortium. 2020. ICTV virus taxonomy profile: Closteroviridae. J. Gen. Virol., DOI 10.1099/jgv.0.001397.
  2. Fuchs, M. Grapevine red blotch virus. In: Invasive Species Compendium and Crop Protection Compendium, CABI International, Wallingford, Oxfordshire, United Kingdom, in press.
  3. Cieniewicz, E., Poplaski, V., Brunelli, M., Dombroswkie, J. and Fuchs, M. Two distinct Spissistilus festinus genotypes in the United States revealed by phylogenetic and morphological analyses. Insects, 11:80; doi:10.3390/insects11020080.
  4. Fuchs, M. Plant resistance to viruses: Engineered resistance. In: Encyclopedia of Virology, 4rd Edition, Bamford, D., Zuckerman, M. (eds), Elsevier, in press.
  5. Fuchs, M. Closteroviruses (Closteroviridae). In: Encyclopedia of Virology, 4th Edition, Bamford, D., Zuckerman, M. (eds), Elsevier, in press.
  6. Cieniewicz, E.J., Qiu, W., Saldarelli, P., Fuchs, M. Seeing is believing: Lessons from emerging viruses in grapevine. Journal of Plant Pathology, https://doi.org/10.1007/s42161-019-00484-3.
  7. Candresse, T. and Fuchs, M. Closteroviridae. In: Encyclopedia of Life Sciences, John Wiley & Sons, Ltd, Chichester, West Sussex, United Kingdom, in press.
2019
  1. Sanfaçon, H., Dasgupta, I., Fuchs, M., Karasev, A., Petrsik, K., Thompson, J.R., Tzanetakis, I., van der Vlugt, R., Wetzel, T. and Yoshikawa, N. 2019. Proposed revision of the family Secoviridae taxonomy to create three subgenera Satsumavirus, Stramovirus and Cholivirus in the genus Sadwavirus. Archives of Virology, https://doi.org/10.1007/s00705-019-04468-7
  2. Cieniewicz, E., Flasco, M., Brunelli, M., Onwumelu A., Wise, A. and Fuchs, M.F. Differential spread of grapevine red blotch virus in California and New York vineyards. Phytobiomes Journal, 3:203-211.
  3. Osterbaan, L. and Fuchs, M. Dynamic interplays between plant viruses and their host interactants for symptom development. Journal of Plant Pathology, 101:885-895.
  4. Dry, I., Riaz, S., Fuchs, M., Sosnowski, M. and Thomas, M. 2019. Scion breeding for resistance to biotic stresses. In: The grape genome, Compendium Plant Genomes, Cantu, D. and Walker, A. (eds), Springer Nature, pp. 319-347.
  5. Osterbaan L.J., Choi J., Kenney J., Flasco M., Vigne E., Schmitt-Keichinger C., Rebelo A.R., Cilia M., and Fuchs M.  (2019) The Identity of a Single Residue of the RNA-dependent RNA Polymerase of Grapevine Fanleaf Virus Modulates Vein Clearing Symptoms in Nicotiana benthamiana. Mol. Plant-Microbe Interact. MPMI-12-18-0337-R.
  6. Alzubi, H., Yepes, L.M. and Fuchs, M. 2019. In vitro storage at low temperature of micropropagated grapevine rootstocks.  In Vitro Cellular & Developmental BiologyPlant, 55:334-341.
  7. Leach, A., Fuchs, M., Harding, R. and Bault, B. 2019. Iris yellow spot virus prolongs the adult lifespan of its primary vector, the onion thrips (Thrips tabaci). Journal of Insect Science, 19:1-4.
  8. Yepes, L.M., Burr, T.J., Reid, C. and Fuchs, M. 2019. Elimination of the crown gall pathogen, Agrobacterium vitis, from systemically infected grapevines by tissue culture. American Journal of Enology and Viticulture, 70:243-248 DOI: 10.5344/AJEV.2019.18083
2018
  1. Setiono, F.J., Chatterjee, D., Fuchs, M., Perry, K.L. and Thompson, J.R. 2018. The distribution and ability to detect grapevine red blotch virus in its host depends on time of sampling and tissue type. Plant Disease, 102:2187-2193.
  2. Cieniewicz E.J., Thompson J., McLane H., Perry K.L., Dangl G.S., Corbett Q., Martinson T., Wise A., Wallis A., O’Connell J., Dunst R., Cox K., and Fuchs M. (2018) Prevalence and genetic diversity of grabloviruses in free-living Vitis spp. Plant Disease 102:2187-2193.
  3. Yepes, L.M. Cieniewicz, E., Krenz, B., McLane, H., Thompson, J.R., Perry, K.L. and Fuchs, M. Causative role of grapevine red blotch virus in red blotch disease. Phytopathology, 108:902-909.
  4. Leach, A., Fuchs, M., Harding, R., Schmidt-Jeffris R. Nault, B.A. 2018. Imported onion transplants as the principal source for iris yellow spot virus epidemics in New York. Plant Disease, 102:1264-1272.
  5. Osterbaan, L., Schmitt-Keichinger, C. Vigne, E. and Fuchs, M. Optimal systemic grapevine fanleaf virus infection in Nicotiana benthamiana following agroinoculation. Journal of Virological Methods, 257:16-21.
  6. Perry, K.L., McLane, H., Thompson, J.R. and Fuchs, M. A novel grablovirus from non-cultivated grapevine (Vitis sp.) in North America. Archives of Virology, 163:259-262.
  7. Martin, I., Vigne, E., Berthold, F., Komar, V., Lemaire, O., Fuchs, M. and Schmitt-Keichinger, C. 2018. The fifty distal amino acids of the 2AHP homing protein of grapevine fanleaf virus elicit a hypersensitive reaction on Nicotiana occidentalis. Molecular Plant Pathology, 19:731-743.
  8. Cieniewicz, E., Pethybridge S.J., Loeb, G.M., Perry, K.L. and Fuchs, M. Insights into the ecology of grapevine red blotch virus in a diseased vineyard. Phytopathology, 108:94-102.
2017
  1. Li, R., Fuchs, M., Perry, K.L., Mekuria, T., and Zhang, S. 2017. Development of a fast AmplifyRP Acceler8 diagnostic assay for grapevine red blotch-associated virus. Journal of Plant Pathology, 99:657-662.
  2. Leach, A., Fuchs, M., Harding, R., Schmidt-Jeffris R. Nault, B.A. 2018. Imported onion transplants as the principal source for iris yellow spot virus epidemics in New York. Plant Disease, 102:1264-1272.
  3. Cieniewicz, E., Pethybridge S., Gorny, A., Madden, L., Perry, K.L., McLane, H. and Fuchs, M. Spatiotemporal spread of grapevine red blotch-associated virus in a California vineyard. Virus Research, 230:59-62.
  4. Thompson, J.R., Dasgupta, I, Fuchs, M., Iwanami, T., Karasev, A.V., Petrzik, K., Sanfaçon, H., Tzanetakis, I., van der Vlugt, R., Wetzel, T. and Yoshikawa, N. 2017. ICTV virus taxonomy profile: Secoviridae. Journal of General Virology, 98:529-531.
  5. Vargas-Ascencio, J. Perry, K.L., Wise, A and Fuchs, M. 2017. Detection of Australian grapevine viroid in Vitis vinifera in New York. Plant Disease, http://doi.org/10.1094/PDIS-11-16-1587-PDN.
  6. Canik-Orel, D., Reid, C., Fuchs, M. and Burr, T. 2017. Environmental sources of Agrobacterium vitis in vineyards and wild grapevines. American Journal of Enology and Viticulture, 68:213-217.
  7. Ricketts, K.D., Gómez, M.I., Fuchs, M.F., Martinson, T.E., Smith, R.J., Cooper, M.L., Moyer, M. and Wise A. 2017. Mitigating the economic impact of grapevine red blotch: Optimizing disease management strategies in U.S. vineyards. American Journal of Enology and Viticulture, 68:127-135.
  8. Fuchs, M. 2017. Pyramiding resistance-conferring gene sequences in crops. Current Opinion in Virology, 26: 36-42.
  9. Gal-On, A., Fuchs, M., and Gray, S. 2017. Generation of novel resistance genes using mutation and targeted gene editing. Current Opinion in Virology, 26: 98-103.
  10. Golino, D., Fuchs, M., Sim, S., Farrar, K. and Martelli, G. 2017. Improvement of grapevine planting stock through sanitary selection and pathogen elimination.  In: Grapevine Viruses: Molecular Biology, Diagnostics and Management.  Meng, B., Martelli, G.P., Golino, D.A. and Fuchs, M.F (eds). Springer Verlag, pp. 561-579.
  11. Fuchs, M. and Lemaire, O.  2017. Novel approaches for virus disease management. In: Grapevine Viruses: Molecular Biology, Diagnostics and Management.  Meng, B., Martelli, G.P., Golino, D.A. and Fuchs, M.F (eds). Springer Verlag, pp. 599-621.
  12. Golino, D., Fuchs, M., Al Rwanih, M., Farrar, K., and Martelli, G.P. 2017. Regulatory aspects of grape virology: Certification, quarantine and harmonization.  In: Grapevine Viruses: Molecular Biology, Diagnostics and Management.  Meng, B., Martelli, G.P., Golino, D.A. and Fuchs, M.F (eds). Springer Verlag, pp. 581-598.
  13. Cieniewicz, E.J., Perry, K.L. and Fuchs, M. 2017. Grapevine red blotch virus: Molecular biology of the virus and management of the disease.  In: Grapevine Viruses: Molecular Biology, Diagnostics and Management.  Meng, B., Martelli, G.P., Golino, D.A. and Fuchs, M.F (eds). Springer Verlag, pp. 303-314.
  14. Rowhani, A., Daubert, S.D., Uyemoto, J.K., Al Rawhnih, M. and Fuchs, M. 2017. American nepoviruses.  In: Grapevine Viruses: Molecular Biology, Diagnostics and Management.  Meng, B., Martelli, G.P., Golino, D.A. and Fuchs, M.F (eds). Springer Verlag, pp. 109-126.
  15. Fuchs, M. Schmitt-Keichinger, C. and Sanfaçon, H. 2017. A renaissance in nepovirus research provides new insights into their molecular interface with hosts and vectors. In: Advances in Virus Research, M. Kielian, K. Maramorosch, T.C Mettenleiter and M.J Roosinck (eds.).pp. 61-105.
2016
  1. Perry, K.L., McLane, H., Hyder, M.Z., Dangl, G.S., Thompson, J.R. and Fuchs, M.F. 2016. Grapevine red blotch-associated virus is present in free-living Vitis sp. proximal to cultivated grapevines.  Phytopathology, 106:663-670.
  2. Varsani, A., Roumagnac, P., Fuchs, M., Navas-Castillo, J., Moriones, E., Idris, I., Briddon, R.W. Rivera-Bustamante, R., Murilo Zerbini, F. and Martin, D.P. 2016. Capulavirus and Grablovirus: Two new genera in the family Geminiviridae.  Archives of Virology, 162:1819-1831.
  3. Vargas, J., Al Rwahnih, M., Rowhani, A., Celebi-Toprak, F., Thompson, J.R., Fuchs, M. and Perry, K.L. 2016. Limited genetic variability of American isolates of Grapevine virus E in Vitis  Plant Disease, 100:159-163.
  4. Tennant, P.F. and Fuchs, M. 2016. Engineered Resistance to Viruses: A case of plant innate immunity. In: Biotechnology for Plant Disease Control, D.B. Collinge, (Ed.), Wiley Blackwell, John Wiley And Sons, Hoboken, New Jersey, pp. 157-170.
2015
  1. Fuchs, M., Marsella-Herrick, P., Hesler, S., Martinson, T. and Loeb, G. 2015. Seasonal pattern of virus acquisition by the grape mealybug, Pseudococcus maritimus, in a leafroll-diseased vineyard. Journal of Plant Pathology, 97: 503-510.
  2. Thompson, J.R., Langenhan, J.L., Fuchs, M. and Perry, K.L. 2015. Genotyping of cucumber mosaic virus isolates in western New York State during epidemic years: Characterization of an emergent plant virus population. Virus Research, 210:169-177.
  3. Golino, A.D. Savino, V., Martelli, G.P. and Fuchs, M. 2015. Certification and international regulation of planting materials.  In: Compendium of Grapevine Diseases.  Wilcox, W.F., Gubler, W.D. and Uyemoto, J.E. (Eds.), APS Press, pp. 192-198.
  4. Martelli, G.P., Savino, V. and Fuchs, M. 2015. European nepoviruses. In: Compendium of Grapevine Diseases. Wilcox, W.F., Gubler, W.D. and Uyemoto, J.E. (eds.), APS Press, pp. 124-127.
  5. Fuchs, M. and Sudarshana, M. 2015. Grapevine red blotch. In: Compendium of Grapevine Diseases. Wilcox, W.F., Gubler, W.D. and Uyemoto, J.E. (eds.), APS Press, pp. 122-123.
  6. Wallingford, A.K., Fuchs, M.F., Hesler, S., Martinson, T.M. and Loeb, G.M. 2015. Slowing the spread of grapevine leafroll-associated viruses in commercial vineyards with insecticide control of the vector, Pseudococcus maritimus (Erhorn) (Hemiptera: Pseudococcidae).  Journal of Insect Science, 15: 112
 doi: 10.1093/jisesa/iev094.
  7. Smith E.A., Fuchs, M., Shields, E.J. and Nault, B.A. 2015. Long-distance dispersal potential for onion thrips (Thysanoptera:  Thripidae) and Iris yellow spot virus (Bunyaviridae: Tospovirus) in an onion ecosystem.  Environmental Entomology, 44:921-930.
  8. Kalinowska, E., Marsella-Herrick, P. and Fuchs, M. 2015. Genetic variability of Blueberry scorch virus isolates from highbush blueberry in New York.  Archives of Virology, 160:1537-1542.
  9. Ricketts, K.D., Gómez, M.I., Atallah, S.S., Fuchs. M.F., Martinson, T., Smith, R.J., Verdegaal, P.S., Cooper, M.L., Bettiga, L.J. and Battany, M.C. 2015. Reducing the economic impact of grapevine leafroll disease in California: identifying optimal management practices. American Journal of Enology and Viticulture, 66:138-147.
  10. Gergerich, R., Welliver, R., Gettys, S., Osterbauer, N., Kamenidou, S., Martin, R.R., Golino, D.A., Eastwell, K., Fuchs, M., Vidalakis, G. and Tzanetakis, I. E. 2015. Safeguarding fruit crops in the age of agriculture globalization.  Plant Disease, 99:176-187.
2014
  1. Krenz, B., Thompson, J.R., McLane, H.L., Fuchs, M. and Perry, K.L. 2014. Grapevine red blotch-associated virus is widespread in the United States.  Phytopathology, 104:1232-1240.
  2. Gottula, J., Lewis, R. Saito, S. and Fuchs, M. 2014. Allopolyploidy and the evolution of plant virus resistance. BMC Evolutionary Biology, 14:149.
  3. Thompson, J.R., Fuchs, M., McLane, H., Toprak-Celebi, F., Fischer, K., Potter, J. and Perry, K.L. 2014. Profiling viral infections in grapevine using a randomly primed reverse transcription-polymerase chain reaction/macroarray multiplex platform. Phytopathology, 104:211-219.
  4. Maliogka, V., Martelli, G.P., Fuchs, M. and Katis, N. 2014. Control of viruses infecting grapevine.  In: Control of Plant Viruses, Advances in Virus Research, G. Loebenstein and N. Katis (eds.), Elsevier, 91:175-227.
  5. Naidu, R., Rowhani, A., Fuchs, M., Golino, D.A. and Martelli, G.P. 2014. Grapevine leafroll disease: A complex viral disease affecting a high value fruit crop. Plant Disease, 98:1172-1185.
2013
  1. Vigne, E., Gottula, J., Schmitt-Keichinger, C., Komar, V., Ackerer, L., Rakotomalala, L., Lemaire, O., Ritzenthaler, C. and Fuchs, M. 2013. A strain specific segment of the RNA-dependent RNA polymerase of Grapevine fanleaf virus determines symptoms in Nicotiana Journal of General Virology, 94:2803-2813.
  2. Gottula, J., Lapato, D., Cantilina, K., Saito, S., Bartlett, B. and Fuchs, M. 2013. Genetic variability, evolution and biological effects of Grapevine fanleaf virus satellite RNAs. Phytopathology, 103:1180-1187.
  3. Celebi-Toprak, F., Thompson, J.R., Perry, K.L. and Fuchs, M. 2013. Arabis mosaic virus in grapevines in New York State. Plant Disease, 97:849.
  4. Maree, H.J., Almeida, R.P.P. Bester, R., Chooi, K-M., Cohen, D., Dolja, V.V., Fuchs, M.F., Golino, D.A., Jooste, A.E.C., Martelli, G.P., Rayapati, N., Rohawni, A.K., Saldarelli, P. and Burger, J.T. 2013. Grapevine leafroll-associated virus 3.  Frontiers in Microbiology, 4:82 doi: 10.3389/fmicb.2013.00082.

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