Gene targeting is a genetic technique that utilizes homologous recombination between an engineered exogenous DNA fragments with the endogenous genome of an organism. In domestic animal, gene targeting has provided an important tool for producing Knock-out pig for GGTA1 gene to use xenotransplantation. The frequency of homologous recombination is a critical parameter for the success of gene targeting. The efficiency of homologous recombination in somatic cells is lower than that in mouse ES cells. So the application of gene targeting in somatic cells has been limited by its low efficiency. Recently, knock-out rat and mouse was generated by introducing nonhomologous end joining (NHE)-mediated deletion or insertion at the target site using zinc-finger nucleases (ZFN). Therefore, the development of effective knock-out and knock-in techniques in domestic animal is very important in biomedical research. In this present study, we investigated whether homologous recombination events occurs at cytidine monophospho-N-acetylneuraminic acid hydroxylase (CMAH) gene locus using ZFN in porcine primary fibroblast. CMAH-targeted ZFN DNA and mRNA were purchased from SIGMA-Aldrich. CMAH neo targeting vector consists of the neomycin resistance gene as a positive selectable marker gene, 789 bp 5’ arm and 763 bp 3’ arm from Exon 8 of CMAH gene. For transfection, the targeting vector and ZFN DNA or mRNA were introduced into ear fibroblasts cells of Chicago miniature pig by electroporation. After selection of G-418, PCR analysis was performed using 213 colonies transfected with ZFN DNA or mRNA. As a result, 39 positive colonies were identified in colonies transfected with ZFN DNA or mRNA. To our knowledge, this study provides the first evidence that the efficiency of gene targeting using ZFN was higher than that of conventional gene targeting in the porcine fibroblast. These cell lines may be used in the production of CMAH knock-out for xenotransplantation.