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The Plant journal : for cell and molecular biology, v.91 no.3, 2017년, pp.558 - 561
Chujo, Tetsuya (Plant and Microbial Research Unit, Division of Plant and Microbial Sciences, Institute of Agrobiological Sciences, National Agriculture and Food Research Organization, 2‐) , Yoshikawa, Manabu (1‐) , Ariga, Hirotaka (2 Kannondai, Tsukuba, Ibaraki, 305‐) , Endo, Masaki (8602, Japan) , Toki, Seiichi (Plant and Microbial Research Unit, Division of Plant and Microbial Sciences, Institute of Agrobiological Sciences, National Agriculture and Food Research Organization, 2‐) , Ishibashi, Kazuhiro (1‐)
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SummaryPlant genome editing is achieved by the expression of sequence‐specific nucleases (SSNs). RNA virus vector‐mediated expression of SSNs is a promising approach for transgene integration‐free targeted mutagenesis in plants. However, the removal of virus vectors from infected p...
Significance StatementHere we developed a removable tomato mosaic virus vector by inserting the target sequence of an inducible host endogenous microRNA. Expression of a sequence‐specific nuclease using the virus vector in tobacco leaves followed by removal of the virus vector from regenerated genome‐edited shoots was demonstrated.
Ali, Z., Abul-faraj, A., Li, L., Ghosh, N., Piatek, M., Mahjoub, A., Aouida, M., Piatek, A., Baltes, Nicholas J., Voytas, Daniel F., Dinesh-Kumar, S., Mahfouz, Magdy M.. Efficient Virus-Mediated Genome Editing in Plants Using the CRISPR/Cas9 System. Molecular plant = 分子植物 英文版, vol.8, no.8, 1288-1291.
Ali, Zahir, Abul-faraj, Aala, Piatek, Marek, Mahfouz, Magdy M. Activity and specificity of TRV-mediated gene editing in plants. Plant signaling & behavior, vol.10, no.10, e1044191-.
Plant Cell Altpeter F. 1510 28 2016 Advancing crop transformation in the era of genome editing
Baltes, Nicholas J., Gil-Humanes, Javier, Cermak, Tomas, Atkins, Paul A., Voytas, Daniel F.. DNA Replicons for Plant Genome Engineering. The Plant cell, vol.26, no.1, 151-163.
Beauclair, Linda, Yu, Agnès, Bouché, Nicolas. microRNA-directed cleavage and translational repression of the copper chaperone for superoxide dismutase mRNA in Arabidopsis. The Plant journal : for cell and molecular biology, vol.62, no.3, 454-462.
Bonnet, Eric, Wuyts, Jan, Rouzé, Pierre, Van de Peer, Yves. Detection of 91 potential conserved plant microRNAs in Arabidopsis thaliana and Oryza sativa identifies important target genes. Proceedings of the National Academy of Sciences of the United States of America, vol.101, no.31, 11511-11516.
Dugas, Diana V., Bartel, Bonnie. Sucrose induction of Arabidopsis miR398 represses two Cu/Zn superoxide dismutases. Plant molecular biology, vol.67, no.4, 403-417.
Feng, Xiao-Ming, Qiao, Yu, Mao, Ke, Hao, Yu-Jin. Ectopic overexpression of AtmiR398b gene in tobacco influences seed germination and seedling growth. Plant cell, tissue and organ culture, vol.102, no.1, 53-59.
Frazier, Taylor P., Xie, Fuliang, Freistaedter, Andrew, Burklew, Caitlin E., Zhang, Baohong. Identification and characterization of microRNAs and their target genes in tobacco (Nicotiana tabacum). Planta, vol.232, no.6, 1289-1308.
Jones-Rhoades, Matthew W, Bartel, David P. Computational Identification of Plant MicroRNAs and Their Targets, Including a Stress-Induced miRNA. Molecular cell, vol.14, no.6, 787-799.
Kaya, Hidetaka, Ishibashi, Kazuhiro, Toki, Seiichi. A Split Staphylococcus aureus Cas9 as a Compact Genome-Editing Tool in Plants. Plant & cell physiology, vol.58, no.4, 643-649.
KURODA, Masaharu, KIMIZU, Mayumi, MIKAMI, Chikako. A Simple Set of Plasmids for the Production of Transgenic Plants. Bioscience, biotechnology, and biochemistry, vol.74, no.11, 2348-2351.
Liu, Qikun, Wang, Feng, Axtell, Michael J.. Analysis of Complementarity Requirements for Plant MicroRNA Targeting Using a Nicotiana benthamiana Quantitative Transient Assay. The Plant cell, vol.26, no.2, 741-753.
Marton, Ira, Zuker, Amir, Shklarman, Elena, Zeevi, Vardit, Tovkach, Andrey, Roffe, Suzy, Ovadis, Marianna, Tzfira, Tzvi, Vainstein, Alexander. Nontransgenic Genome Modification in Plant Cells. Plant physiology, vol.154, no.3, 1079-1087.
Miyashita, Shuhei, Ishibashi, Kazuhiro, Kishino, Hirohisa, Ishikawa, Masayuki, Sugden, Bill. Viruses Roll the Dice: The Stochastic Behavior of Viral Genome Molecules Accelerates Viral Adaptation at the Cell and Tissue Levels. PLoS biology, vol.13, no.3, e1002094-.
Nakazono, Mikio, Qiu, Fang, Borsuk, Lisa A., Schnable, Patrick S.. Laser-Capture Microdissection, a Tool for the Global Analysis of Gene Expression in Specific Plant Cell Types: Identification of Genes Expressed Differentially in Epidermal Cells or Vascular Tissues of Maize[W]. The Plant cell, vol.15, no.3, 583-596.
Nixon, H.L.. An estimate of the number of tobacco mosaic virus particles in a single hair cell. Virology, vol.2, no.1, 126-128.
Saika, Hiroaki, Nonaka, Satoko, Osakabe, Keishi, Toki, Seiichi. Sequential monitoring of transgene expression following Agrobacterium-mediated transformation of rice.. Plant & cell physiology, vol.53, no.11, 1974-1983.
Yoshikawa, Manabu, Iki, Taichiro, Numa, Hisataka, Miyashita, Kyoko, Meshi, Tetsuo, Ishikawa, Masayuki. A Short Open Reading Frame Encompassing the MicroRNA173 Target Site Plays a Role in trans-Acting Small Interfering RNA Biogenesis. Plant physiology, vol.171, no.1, 359-368.
Zhu, Cheng, Ding, Yanfei, Liu, Haili. MiR398 and plant stress responses. Physiologia plantarum, vol.143, no.1, 1-9.
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