Abstract

We established an effective biolistic transformation procedure fortransferring foreign genes into garlic (Allium sativumL.),which we demonstrated by generating transgenic plants resistant tochlorsulfuron, a sulfonylurea herbicide. We subcultured callus tissue from theapical meristem of garlic cloves and repeatedly selected calli with brittle,non-mucilaginous surfaces for over six months, to increase transformationefficiency. We then constructed recombinant DNA that contained the acetolactatesynthase (ALS) gene from a chlorsulfuron-resistantArabidopsis mutant, the cauliflower mosaic virus 35Spromoter, the β-glucuronidase (GUS) reporter gene, and the hygromycinphosphotransferase (HPT) selectable marker gene. The garlic calli werebombarded twice with tungsten particles coated with the DNA constructs. Transformed calliwere efficiently selected by embedding them in solid agar medium containing 50mg l−1 hygromycin B. Selected propagules wereregenerated into 12 independent plants. We confirmed that the transgenes wereintegrated and expressed in the plants using PCR-Southern and Northern blotanalyses and by β-glucuronidase expression assay forGUS. The regenerated plants survived in the presence of 3mg l−1 chlorsulfuron, demonstrating that theirALS was insensitive to this herbicide. These results illustrate the successfultransformation of foreign genes into garlic plants. The set of proceduresdeveloped in this study is applicable to the generation of transgenic garlicplants with other agronomically beneficial traits.

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