Transgenic carnations obtained byAgrobacterium tumefciens-mediated transformation of leaf explants

Abstract

For the development of anAgrobacterium-mediated transformation procedure of carnation (Dianthus caryophyllus L.), an intron-containing β-glucuronidase (gus) gene was used to monitor the frequency of transformation events soon after infection of leaf explants. The efficiency of gene transfer was dependent on the carnation genotype, explant age and cocultivation time. Leaf explants from the youngest leaves showed the highest number of GUS-positive spots. After selection on a kanamycin-containing medium, transgenic shoots were generated among a relatively high number of untransformed shoots. The selection procedure was modified in such a way that the contact between explant and medium was more intense. This improved the selection and decreased the number of escapes. Kanamycin-resistant and GUS-positive plants were obtained from five cultivars after infection of leaf explants with the supervirulentAgrobacterium strain AGLO. A higher transformation frequency was observed with the binary vector pCGN7001 than with the p35SGUSint vector. Integration of the genes into the carnation genome was demonstrated by Southern blot hybridization. The number of incorporated T-DNA insertions varied between independent transformants from one to eight. Transformants were morphologically identical to untransformed plants. Segregation of the genes occurred in a Mendelian way.