Targeted integration of DNA using mutant lox sites in embryonic stem cells.
Site-directed DNA integration has been achieved by using a pair of mutant lox sites, a right element (RE) mutant lox site and a left element (LE) mutant lox site [Albertet al. (1995)Plant J., 7, 649-659], in mouse embryonic stem (ES) cells. We established ES cell lines carrying a single copy of the wild-type lox Por LE mutant lox site as a target and examined the frequency of site-specific integration of a targeting vector carrying a loxP or RE mutant lox site induced by Cre transient expression. Since our targeting vector contains a complete neo gene, random integrants can form colonies as in the case of a gene targeting event through homologous recombination. With our system, the frequency of site-specific integration via the mutant lox sites reached a maximum of 16%. In contrast, the wild-type loxP sites yielded very low frequencies (<0.5%) of site-specific integration events. This mutatedloxsystem will be useful for 'knock-in' integration of DNA in ES cells.[1]References
- Targeted integration of DNA using mutant lox sites in embryonic stem cells. Araki, K., Araki, M., Yamamura, K. Nucleic Acids Res. (1997) [Pubmed]
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