Directed excision of a transgene from the plant genome

Summary The effectiveness of loxP-Cre directed excision of a transgene was examined using phenotypic and molecular analyses. Two methods of combining the elements of this system, re-transformation and cross pollination, were found to produce different degrees of excision in the resulting plants. Two linked traits, -glucuronidase (GUS) and a gene encoding sulfonylurea-resistant acetolactate synthase (ALS^r), were integrated into the genome of tobacco and Arabidopsis. The ALS^r gene, bounded by loxP sites, was used as the selectable marker for transformation. The directed loss of the ALS^T gene through Cre-mediated excision was demonstrated by the loss of resistance to sulfonylurea herbicides and by Southern blot analysis. The -glucuronidase gene remained active. The excision efficiency varied in F₁ progeny of different lox and Cre parents and was correlated with the Cre parent. Many of the lox × Cre F₁ progeny were chimeric and some F₂ progeny retained resistance to sulfonylureas. Re-transformation of lox/ALS/lox/GUS tobacco plants with cre led to much higher efficiency of excision. Lines of tobacco transformants carrying the GUS gene but producing only sulfonylurea-sensitive progeny were obtained using both approaches for introducing cre. Similarly, Arabidopsis lines with GUS activity but no sulfonylurea resistance were generated using cross pollinations.