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Hisanao Suzue, Munetaka Hosokawa, and Susumu Yazawa

sorghum ( Sorghum bicolor ) via microprojectile bombardment Plant Cell Tissue Organ Cult. 75 1 18

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Kathryn Kamo and Bong Hee Han

. Kononowicz, A.K. Bressan, R.A. Hasegawa, P.M. 1998 Microprojectile bombardment-mediated transformation of Lilium longiflorum Plant Cell Rep. 17 262 267

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Tao Dong, Fang-cheng Bi, Yong-hong Huang, Wei-di He, Gui-ming Deng, Hui-jun Gao, Ou Sheng, Chun-yu Li, Qiao-song Yang, Gan-jun Yi, and Chun-hua Hu

Cavendish banana ( Musa spp. AAA group) cv ‘Grand Nain’ via microprojectile bombardment Plant Cell Rpt. 19 229 234 Chee, W.W. Jalil, M. Abdullah, M.O. Othman, R.Y. Khalid, N. 2005 Comparison of beta-glucuronidase expression and anatomical localization in

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Moon Kyung Ko, Hyunchul Soh, Kyung-Moon Kim, Young Soon Kim, and Kyunghoan Im

-mediated, microprojectile bombardment, or PEG, and so on), the selection strategy, and the plant tissue culture system ( Birch, 1997 ; Walden and Wingender, 1995 ). In the present study, we used the hpt gene in pepper transformation as a selectable

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Jinpeng Xing, Yan Xu, Jiang Tian, Thomas Gianfagna, and Bingru Huang

ryegrass ( Lolium perenne ) transformed by microprojectile bombardment with SEE - ipt . This delay in leaf senescence of grasses could have important economic consequences, especially after periods of stress. Hu et al. (2005) reported that tall fescue

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Yu-Tsung Lin, Chia-Wei Lin, Chien-Hung Chung, Mei-Hsiu Su, Hsiu-Yin Ho, Shi-Dong Yeh, Fuh-Jyh Jan, and Hsin-Mei Ku

.P. 1991 Plant regeneration from cotyledons of Cucumis melo ‘Topmark’ HortScience 26 908 910 Chee, P.P. Slightom, J.L. 1992 Transformation of cucumber tissues by microprojectile bombardment: Identification of plants containing functional and non