References
Ali, Z., Abulfaraj, A., Idris, A., Ali, S., Tashkandi, M., and Mahfouz, M.M. (2015). CRISPR/Cas9-mediated viral interference in plants. Genome Biol, 16, 238.
Ali, Z., Ali, S., Tashkandi, M., Zaidi, S.S.E.A., and Mahfouz, M.M. (2016). CRISPR/Cas9-mediated immunity to geminiviruses: differential interference and evasion. Sci Rep, 6, 26912.
Baltes, N.J., Hummel, A.W., Konecna, E., Cegan, R., Bruns, A.N., Bisaro, D.M., and Voytas, D.F. (2015). Conferring resistance to geminiviruses with the CRISPR-Cas prokaryotic immune system. Nat Plants, 1, 15145.
Borrelli, V.M.G., Brambilla, V., Rogowsky, P., Marocco, A., and Lanubile, A. (2018). The enhancement of plant disease resistance using CRISPR/Cas9 technology. Front Plant Sci, 9, 1245.
Hanley-Bowdoin, L., Bejarano, E.R., Robertson, D., and Mansoor, S. (2013). Geminiviruses: masters at redirecting and reprogramming plant processes. Nat Rev Microbiol, 11, 777–788.
Ji, X., Si, X., Zhang, Y., Zhang, H., Zhang, F., and Gao, C. (2018). Conferring DNA virus resistance with high specificity in plants using virus-inducible genome-editing system. Genome Biol, 19, 197.
Ji, X., Zhang, H., Zhang, Y., Wang, Y., and Gao, C. (2015). Establishing a CRISPR-Cas-like immune system conferring DNA virus resistance in plants. Nat Plants, 1, 15144.
Jiao, R., and Gao, C. (2017). Anything impossible with CRISPR/Cas9? Sci China Life Sci, 60, 445–446.
Mehta, D., Stürchler, A., Anjanappa, R.B., Zaidi, S.S.E.A., Hirsch-Hoffmann, M., Gruissem, W., and Vanderschuren, H. (2019). Linking CRISPR-Cas9 interference in cassava to the evolution of editingresistant geminiviruses. Genome Biol, 20, 80.
Men, K., Duan, X., He, Z., Yang, Y., Yao, S., and Wei, Y. (2017). CRISPR/Cas9-mediated correction of human genetic disease. Sci China Life Sci, 60, 447–457.
Meng, X., Hu, X., Liu, Q., Song, X., Gao, C., Li, J., and Wang, K. (2018). Robust genome editing of CRISPR-Cas9 at NAG PAMs in rice. Sci China Life Sci, 61, 122–125.
Tashkandi, M., Ali, Z., Aljedaani, F., Shami, A., and Mahfouz, M.M. (2018). Engineering resistance against tomato yellow leaf curl virus via the CRISPR/Cas9 system in tomato. Plant Signal Behav, 13, e1525996.
Yang, X., Guo, W., Li, F., Sunter, G., and Zhou, X. (2019). Geminivirusassociated betasatellites: exploiting chinks in the antiviral arsenal of plants. Trends Plant Sci, 24, 519–529.
Yin, K., Han, T., Xie, K., Zhao, J., Song, J., and Liu, Y. (2019). Engineer complete resistance to cotton leaf curl Multan virus by the CRISPR/Cas9 system in Nicotiana benthamiana. Phytopathol Res, 1, 9.
Zaidi, S.S.E.A., Mansoor, S., Ali, Z., Tashkandi, M., and Mahfouz, M.M. (2016). Engineering plants for geminivirus resistance with CRISPR/Cas9 system. Trends Plant Sci, 21, 279–281.
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Yang, X., Zhou, H. & Zhou, X. Rock paper scissors: CRISPR/Cas9-mediated interference with geminiviruses in plants. Sci. China Life Sci. 62, 1389–1391 (2019). https://doi.org/10.1007/s11427-019-9825-4
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DOI: https://doi.org/10.1007/s11427-019-9825-4