Micropropagation

principle investigator

• Sandra B. Wilson, University of Florida/IFAS/GNV
• Mike Kane, University of Florida/IFAS/GNV
• Wagner Vendrame, University of Florida/IFAS/GNV

publications

• Xu, J.*, S.B. Wilson, W.A. Vendrame and D.G. Beleski. 2023. Micropropagation of sweet acacia (Vachellia farnesiana), an underutilized tree with ornamental value. In vitro Cellular Developmental Biol.-Plant. 13 Jan. 2023
  (online) https://doi.org/10.1007/s11627-022-10317-1
• Zhaoyuan, L.*, C. D. Nguyen, L. Liu, G. Wang, J. Chen, S. Wang, G. Yi, S.B Wilson, H. Gong and H. Huo. 2022. Improved genetic transformation by applying developmental regulators through Agrobacteria injection of adult plants or in-vitro tissue culture. Plant Biotechnol. J. 1-14: doi: 10.1111/pbi.13837.
• Valero-Aracama, C., M.E. Kane, S.B. Wilson, and N.L. Philman. 2008. Comparative Growth, Morphology and Anatomy of Easy- and Difficult-to Acclimatize Sea Oats (Uniola paniculata) Genotypes During In Vitro Culture and ex Vitro Acclimatization. J ASHS. 133:830-843.
• Valero-Aracama, C., S.B. Wilson, M.E. Kane, and N.L. Philman. 2007. Influence of in vitro growth conditions on in vitro and ex vitro photosynthetic rates of easy- and difficult-to-acclimatize sea oats (Uniola paniculata L.) genotypes. In vitro Cell. Dev. Biol. Plant. 43:237-246.
• Valero-Aracama, C., M.E. Kane, S.B. Wilson, J.C. Vu, J. Anderson, and N.L. Philman. 2006. Photosynthetic and carbohydrate status of easy- and difficult-to-acclimatize sea oats (Uniola paniculata L.) genotypes during in vitro culture and ex vitro acclimatization. In vitro Cell. Dev. Biol. Plant. 42:572-583.
• Kubota, C., M. Ezawa, S.B. Wilson, and T. Kozai. 2002. In situ estimation of carbon balance of in vitro sweet potato and tomato plantlets cultured with varying initial sucrose concentrations in the medium. J. Amer. Soc. Hort. Sci. 127:963-970.
• Wilson, S.B., N.C. Rajapakse, and R.E. Young. 2001. Carbohydrate status and post storage recovery of micropropagated hosta plantlets stored at varying temperatures in light or darkness. Acta Hort. 543:265-273.
• H. Jeongwook, S.B. Wilson, and T. Kozai. 2001. A forced ventilation micropropagation system for photoautotrophic production of sweetpotato plug plantlets in a scaled-up culture vessel. I. Growth and uniformity. HortTechnology 11:90-94.
• Wilson, S.B., H. Jeongwook, C. Kubota, and T. Kozai. 2001. A forced ventilation micropropagation system for photoautotrophic production of sweetpotato plug plantlets in a scaled-up culture vessel. II. Carbohydrate status. HortTechnology 11:95-99.
• Wilson, S.B., C. Kubota, and T. Kozai. 2000. Effects of medium sugar on growth and carbohydrate status of sweetpotato and tomato plantlets in vitro. In C. Kubota and C. Chun, eds. Transplant production in the 21st century. Kluwer academic publishers, Dordrecht, The Netherlands.
• Wilson, S.B., N.C. Rajapakse, and R.E. Young. 2000. Use of low temperature to improve storage of in vitro broccoli seedlings under various light qualities. J. Veg. Crop Prod. 6(2):51-67.
• Wilson, S.B., N.C. Rajapakse, and R.E. Young. 2000. Media composition and light affect storability and post storage recovery of micropropagated hosta plantlets. HortScience 35:1159-1162.
• Wilson, S.B., K. Iwabuchi, N.C. Rajapakse, and R.E. Young. 1998. Responses of broccoli seedlings to light quality during low temperature storage in vitro. I. Morphology and survival. HortScience 33:1253-1257.
• Wilson, S.B., K. Iwabuchi, N.C. Rajapakse, and R.E. Young. 1998. Responses of broccoli seedlings to light quality during low temperature storage in vitro. II. Sugar content and photosynthetic efficiency. HortScience 33:1258-1261.

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