Ghoshal Lab : Molecular Plant Virology Laboratory
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Ghoshal, B*. (2024) A birds-eye-view on CRISPR-Cas system in agriculture. The Nucleus. https://doi.org/10.1007/s13237-023-00462-2
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Úrbez-Torres, J. R.*, Sabaratnam,S., Acheampong, S., Balcaen, D., Boulé, J., Ghoshal, B., Bennypaul, H., Thurston, M., Richardson, T., Molnar, C., and Harper, S. (2023) First Report of ‘Candidatus Phytoplasma pruni’ Associated with X-Disease on Sweet Cherry (Prunus avium) in Canada. Plant Disease https://doi.org/10.1094/PDIS-09-23-1875-PDN
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Veley, K.M.*, Elliott, K., Jensen, G., Zhong, Z., Feng, S., Yoder, M., Gilbert, K.B., Berry, J. C., Lin, Ghoshal, B., Gallego-Bartolomé, J., Norton, J., Motomura-Wages, S., Carrington, J.C., Jacobsen, S.E., and Bart, R.S. (2023) Improving disease resistance in plants by editing the epigenome. Nature Communications https://doi.org/10.1038/s41467-022-35675-7
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Gardiner, J.*, Ghoshal, B.*, Wang, M.*, and Jacobsen, S.E. (2022) CRISPR-CAS mediated transcriptional control and epi-mutagenesis. Plant Physiology 188(4):1811-1824 (Invited Review)
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Bansal, K.C.*, Roy, S., and Ghoshal, B. (2022) Genome editing technologies for efficient use of Plant genetic resources. India Society of Plant genetic resources 35 (3): 95 - 99 (Invited Review)
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Ghoshal, B.*, Picard C. L.*, Vong, B., Feng, S., and Jacobsen, S.E. (2021) CRISPR-based targeting of DNA methylation in Arabidopsis thaliana by a bacterial CG-specific DNA methyltransferase. Proceedings of the National Academy of Sciences 118 (23) e2125016118
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Alam. S.A.*, Reade. R., Maghodia. A., Ghoshal. B.,Theilmann. J., and Rochon, D. (2021)Targeting of Cucumber necrosis virus coat protein to chloroplasts is associated with attenuation of necrotic symptoms during infection of N. benthamiana. Virology 554: 106-119
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Ghoshal. B.*, and Gardiner. J.*(2021) CRISPR- CAS9 targeted manipulation of DNA methylation in plants (Publisher Springer Nature Switzerland AG) (Book CRISPR-Cas methods II; editors Dr. Tofazzal Islam and Dr. Kutubuddin Molla) (Book Chapter)
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Ghoshal, B.*, Vong, B., Picard C. L., Feng, S., Tam, J.M., and Jacobsen, S.E. (2020) A viral guide RNA delivery system for CRISPR-based transcriptional activation and heritable targeted DNA demethylation in Arabidopsis thaliana. PLOS Genetics 16(2):e e1008983
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Gallego-Bartolomé, J.*, Liu, W.*, Kuo, P.H., Feng, S., Ghoshal, B., J., Gardiner, Miao-Chi Zhao, J., Park, S.Y., Chory, J., and Jacobsen, S.E. (2019) Co-targeting RNA polymerases IV and V promotes efficient de novo DNA methylation in Arabidopsis. Cell 176(5):1068-1082
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Paudel, D.B.*, Ghoshal, B., Jossey, S., Ludman, M., Fatyol, K., and Sanfaçon, H. (2018) Expression and antiviral function of ARGONAUTE 2 in Nicotiana benthamiana plants infected with two isolates of tomato ringspot virus with varying degrees of virulence. Virology 456-457: 188-197
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Gallego-Bartolomé, J.*, Gardiner, J.*, Liu, W.*, Papikian, A.*, Ghoshal, B., Kuo, H.Y., Miao-Chi Zhao, J., Segal, D.J., and Jacobsen, S.E. (2018) Targeted DNA demethylation of the Arabidopsis genome using the human TET1 catalytic domain. Proceedings of the National Academy of Sciences 115(9):2125-2134
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Ghoshal B.*, and Sanfaçon, H. (2015) Symptom recovery in virus-infected plants: revisiting the role of RNA silencing mechanisms. Virology 479:167-179 (Invited Review)
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Melanie, W.*, Chisholm, J., Wei, T., Ghoshal, B., Saeed, H., Rott, M. and Sanfaçon, H. (2014) Complete genome sequence of three tomato ringspot virus isolates: Evidence for reassortment and recombination. Archives of Virology 160:543–547
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Ghoshal, B.* and Sanfaçon, H. (2014) Temperature-dependent symptom recovery in Nicotiana benthamiana plants infected with tomato ringspot virus is associated with reduced translation of viral RNA2 and requires ARGONAUTE 1.Virology 456-457: 188-197
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Laha, G.S.*, Balachandran, S.M., Sundaram, R.M., Ghoshal, B., Datta, K., Mishra, B., and Datta, S.K. (2008) Performance of transgenic indica rice with Xa21 gene against Indian isolates of bacterial blight pathogen under field condition. Trends in biosciences 1-2: 1-4