Genetic engineering of mammalian cells by direct delivery of FLP recombinase protein.

Protein transduction is based on the ability of certain peptides, designated as cell penetrating peptides (CPPs), to intracellularly deliver cargo molecules, such as peptides and proteins. In combination with site specific recombination, CPP-mediated delivery of recombinases enables a precise and highly efficient control of gene expression in cultured cells and mice. Herein, we provide detailed protocols for engineering and purification of a cell-permeant FLP recombinase protein.

Engineering cell-permeant FLP recombinase for tightly controlled inducible and reversible overexpression in embryonic stem cells.

Combined application of DNA recombinases Cre and FLP enables tightly controlled independent and/or sequential gene regulations. However, in practice, such dual recombinase strategies are hampered by the comparably low efficiency of the FLP recombinase. Here, we present the engineering of a recombinant cell-permeant FLP protein (TAT-FLP) that induces recombination in >75% of fibroblasts and mouse as well as human embryonic stem (ES) cells.