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Reproduction, Fertility and Development Reproduction, Fertility and Development Society
Vertebrate reproductive science and technology
RESEARCH ARTICLE

31 CONSTRUCTION OF A TARGETING VECTOR SPECIFIC FOR THE BOVINE BETA-CASEIN GENE

M. Chang A , K.-B. Oh A , G. Wee A , D.-B.n Koo A , S.-T.e Shin B , K.-K. Lee A and Y.-M. Han A
+ Author Affiliations
- Author Affiliations

A Laboratory of development and differentiation, Korea Research Institute of Bioscience and Biotechnology (KRIBB), Daejeon, South Korea

B College of Veterinary Medicine, Chungnam National University, Daejeon, 305-764 South Korea. Email: doobe@hanmail.net

Reproduction, Fertility and Development 17(2) 165-166 https://doi.org/10.1071/RDv17n2Ab31
Submitted: 1 August 2004  Accepted: 1 October 2004   Published: 1 January 2005

Abstract

Although using livestock as animal bioreactors is a powerful tool to produce valuable therapeutic proteins in the milk, there are still some limitations to the technology such as a low frequency of transgenesis and a low expression of the transgenes by random integration. In this study, we constructed gene-targeting vectors for a mammary gland-specific gene and then obtained two homologous recombinant cell clones after transfection of the vectors into bovine somatic cells. Two targeting vector cassettes, BCKI I and BCKI II, which have homology regions for a bovine beta-casein gene, were constructed. The beta-casein gene is expressed only in the mammary gland and is the most abundant milk protein in the cow. The targeting sequence lengths of the BCKI I and BCKI II vector cassettes were 13.1 kb and 9.1 kb, respectively, and contained different long arm lengths. A neo gene was inserted into the vectors as a selection marker, and a few restriction enzyme sites were made in front of the neo gene. The human thrombopoietin (TPO) gene was inserted into the restriction enzyme sites of the vector cassettes, named BCTPOKI I and BCTPOKI II vectors. The BCTPOKI I and BCTPOKI II vectors were transfected into bovine embryonic fibroblasts (bEF) and ear skin fibroblasts (bESF) using Lipofectamine 2000 reagent (Invitrogen, Seoul, South Korea). In order to determine the highest transfection efficiency, a variety of factors such as DNA concentration, lipid volume, and exposure time to DNA-liposome complexes based on the manufacturers' guideline, was optimized. The 2:1 and 1:2 ratios of DNA (μg) to transfection reagent (μL) were efficient for bEF and bESF, respectively, under overnight exposure to DNA-Lipofectamine 2000 reagent. Seventeen percent (51/304) of bESF clones and 6% (9/149) of bEF clones were normally expanded into passage 8. PCR and Southern blotting indicated that 6.3% (2/32) of the clones carrying with BCTPOKI II vectors was homologously targeted at the beta-casein gene. However, none (0/60) of the clones carrying BCTPOKI I was targeted. Additionally, both of the targeted clones were from bESF. When the targeted cells were transferred into enucleated oocytes and cultured, 83% (43/52) of the cloned embryos were transgenic. Thus, we found that homologous recombinant events using gene-targeting vectors might be dependent on cell types, vector sizes, and transfection procedures. In conclusion, mammary gland-specific gene-targeting vectors coupled with somatic cell nuclear transfer technology will be very useful for developing animal bioreactors that produce therapeutic proteins in milk.