The rolB gene promotes rooting in vitro and increases fresh root weight in vivo of transformed apple scion cultivar 'Florina'
2005
Radchuk, V.V. | Korkhovoy, V.I.
Transgenic apple (Malus x domestica Borkh.) 'Florina' plants were obtained by Agrobacterium-mediated transformation. The efficiency of gene transfer was 7.9%, calculated as a number of explants producing at least one transgenic shoot, after co-cultivation of leaf explants from in vitro-grown shoots in a thin layer of the A. tumefaciens C58C1 strain with the binary vector pCMB-B:GUS. Polymerase chain reaction revealed that all the clones contained the nptII and rolB genes, while four of them did not contain the gus gene. Southern blot analysis confirmed the integration of the nptII and rolB genes, with one to three copies per genome being present. All independent rolB-transgenic lines were able to produce roots in vitro on the hormone free medium, while the plants, transformed with the vector pIB16.1, or untransformed control plants did not root, and only half of shoots of MM106 rootstock rooted on this medium. The average root number in the rolB-transgenic clones ranged from 4 to 7.7. Pretreatment with indole-3-butyric acid caused root formation in all transgenic and control plants and significantly increased root number in the rolB-transgenic lines, compared to untransformed plants. RolB-transgenic plants, grown in vivo in greenhouse for 2 years, did not differ phenotypically from the wild type line with the exception of root parts. All rolB-transformed plants produced altered root systems containing more fine roots leading to significantly increased fresh root weight in five plant lines.
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