To investigate the ability of our cloned murine beta-casein locus to direct the exogenous gene expression in the milk of transgenic mice, the human t-PA variant mammary gland expression vector under the control of murine beta-casein gene regulatory elements was constructed, in which the human t-PA variant signal-pro peptide sequence was replaced with murine beta-casein signal peptide sequence and the human t-PA variant mature peptide cDNA was inserted into the second exon of beta-casein gene. The fusion gene was microinjected in the fertilized mice eggs. A total of 285 embryos were microinjected and transferred into 13 surrogate mother mice. Twelve positive transgenic mice were identified through PCR and Southern blot analysis among 42 new born mice. Human t-PA variant was expressed in the milk of 7 transgenic mice, the highest expression level attained to 3.6593 micrograms/ml. The results demonstrated that the murine beta-casein gene regulatory elements can direct the human t-PA variant gene successfully express in the milk of transgenic mice. It lays great foundation for the research on the beta-casein knock-in mice mammary gland bioreactor model construction.