Abstract

To minimize expression variability amongst transgenic lines, we have utilized the strategy of Cre/lox-mediated site-specific gene integration. This method allows the precise integration of a transgene in a lox site previously placed in the genome. Using the biolistic method for DNA delivery, we have generated several site-specific integrant lines, derived from three different target lines. About 80% of the selected lines contain precise integration of the gusA reporter gene and fall into two categories: single-copy (SC) lines that contain site-specific integration without additional random integrations, and multicopy (MC) lines that contain random integrations in addition to the site-specific integration. The expression of the gusA gene was studied in callus cells and regenerated plants. The isogenic SC lines displayed significantly lower expression variation, whereas much higher expression variation was observed in MC lines. Furthermore, stable inheritance of the gusA gene was observed in T1 plants derived from a subset of SC lines. This demonstrates that consistent gene expression can be obtained in rice by Cre-mediated site-specific integration.

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