The Cre and Flp site-specific recombinases have become standard tools for genome engineering in mice. In an Advanced Online Publication in Nature Biotechnology, Gusztav Belteki and colleagues demonstrate that the integrase from Streptomyces ΦC31 phage can be used in mouse embryonic stem (ES) cells to generate site-specific insertions in the genome (Nature Biotechnology, 3 February 2003, DOI:10.1038/nbt787).

Belteki et al. placed a sequence flanked by attP or attB recognition sites in the mouse genome (P- or B-docking sites) and then introduced a plasmid containing an attB or attP-flanked promoterless gene (B- or P-incoming construct). They observed the highest frequencies of cassette exchange events when using P-docking sites with B-incoming sequences. They then used the engineered ES cells to create chimeric mice and demonstrated germline transmission. The ΦC31 integrase adds another tool to Cre and Flp in the genome engineer's toolkit.

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