ABSTRACT
Objective: To study the construction and application of a vector with Cre recombinase recognition site lox66 for mouse HPRT gene targeting in embryonic stem(ES) cells. Methods: Using the HPRT genomic DNA fragment and synthesized oligonucleotides, pSP HPRT lox66 Neo was designed and constructed as a replacement vector by common molecular cloning techniques. After the linearized pSP HPRT lox66 Neo DNA was electroporated into ES cells, and transfected cells were cultured in G418/6 TG drug selection medium. The recombination efficiency of this vector was tested. Results: The main components of pSP HPRT lox66 Neo were a positive selection gene Neo, lox66, long and short homologous fragments of mouse HPRT gene and plasmid backbone. Twenty ES cell clones with HPRT gene inactivated were obtained. Conclusion: An effective replacement vector with Cre recombinase recognition site lox66 is constructed and applied to HPRT gene targeting in ES cells.