Deletion of marker gene in transgenic goat by Cre/LoxP system

Home > Archive>Volume 29, Issue 12, 2013 >1847-1854

Deletion of marker gene in transgenic goat by Cre/LoxP system
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                        Chong LanChong Lan
Institute of Animal Genetics and Breeding, Sichuan Agricultural University, Ya’an 625014, Sichuan, China; Shanghai Engineering Research Center of Transgenic Animal breeding and Pharmaceutical / Shanghai Genon Bioengineering Co. Ltd., Shanghai 201210, China
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Lina RenLina Ren
Shanghai Engineering Research Center of Transgenic Animal breeding and Pharmaceutical / Shanghai Genon Bioengineering Co. Ltd., Shanghai 201210, China
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Min WuMin Wu
Institute of Animal Genetics and Breeding, Sichuan Agricultural University, Ya’an 625014, Sichuan, China; Shanghai Engineering Research Center of Transgenic Animal breeding and Pharmaceutical / Shanghai Genon Bioengineering Co. Ltd., Shanghai 201210, China
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Siguo LiuSiguo Liu
Shanghai Engineering Research Center of Transgenic Animal breeding and Pharmaceutical / Shanghai Genon Bioengineering Co. Ltd., Shanghai 201210, China
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Guohui LiuGuohui Liu
Shanghai Engineering Research Center of Transgenic Animal breeding and Pharmaceutical / Shanghai Genon Bioengineering Co. Ltd., Shanghai 201210, China
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Xujun XuXujun Xu
Shanghai Engineering Research Center of Transgenic Animal breeding and Pharmaceutical / Shanghai Genon Bioengineering Co. Ltd., Shanghai 201210, China
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Jianquan ChenJianquan Chen
Shanghai Engineering Research Center of Transgenic Animal breeding and Pharmaceutical / Shanghai Genon Bioengineering Co. Ltd., Shanghai 201210, China
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Hengdong MaHengdong Ma
Institute of Animal Genetics and Breeding, Sichuan Agricultural University, Ya’an 625014, Sichuan, China
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Guoxiang ChengGuoxiang Cheng
Shanghai Engineering Research Center of Transgenic Animal breeding and Pharmaceutical / Shanghai Genon Bioengineering Co. Ltd., Shanghai 201210, China
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Fund Project:Program of Shanghai Technology Chief Scientist (No. 11XD1422000), Shanghai Technique Innovative Plan (No. 11431921400), Shanghai R&D Base Construction Projects (No. 10dz2251700).

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Abstract:

In producing transgenic livestock, selectable marker genes (SMGs) are usually used to screen transgenic cells from numerous normal cells. That results in SMGs integrating into the genome and transmitting to offspring. In fact, SMGs could dramatically affect gene regulation at integration sites and also make the safety evaluation of transgenic animals complicated. In order to determine the deletion time and methods in the process of producing transgenic goats, the feasibility of deleting SMGs was explored by Cre/LoxP before or after somatic cell cloning. In addition, we compared the efficiency of protein transduction with plasmids co-transduction. We could delete 43.9% SMGs after screening out the transgenic cell clones, but these cells could not be applied to somatic cells cloning because of serious aging after two gene modifications. The SMG-free cells suitable for nuclear transfer were accessible by using the cells of transgenic goats, but this approach was more time consuming. Finally, we found that the Cre plasmid could delete SMGs with an efficiency of 7.81%, but about 30% in SMG-free cells had sequences of Cre plasmid. Compared with Cre plasmid, the integration of new exogenous gene could be avoided by TAT-CRE protein transduction, and the deletion rate of TAT-CRE transduction was between 43.9 and 72.8%. Therefore, TAT-Cre transduction could be an effective method for deleting selectable marker genes.

Key words:transgenic goat, Cre/LoxP, knockout genes, selectable marker genes

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兰翀,任丽娜,吴敏,刘思国,刘国辉,徐旭俊,陈建泉,马恒东,成国祥. 利用Cre/LoxP系统删除转基因山羊体内的选择标记基因[J]. Chinese Journal of Biotechnology, 2013, 29(12): 1847-1854

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Received:March 10,2013
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Online: December 04,2013
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