State Key Laboratory for Agrobiotechnology, College of Biological Sciences, China Agricultural University, Beijing, 100193, People's Republic of China.
Transgenic Res. 2013 Apr;22(2):417-23. doi: 10.1007/s11248-012-9642-y. Epub 2012 Aug 24.
Transgenic techniques in chickens have been developed much more slowly than in mammals due to chickens' unique reproduction mechanism. Retroviral methods have been the most successful. piggyBac (PB) is a transposon that has a 13 bp perfect terminal invert repeat sequence. PB can be inserted into TTAA sites and can also be precisely excised in mammals. Therefore, we have selected PB as a candidate to establish a new method to produce transgenic chickens. We constructed three donor vectors (ZGl-neo, ZGm-neo and ZGs-neo) expressing a GFP marker-gene and a neomycin resistant gene based on PB. We co-transfected each donor vector with a helper vector (CAG-PBase). We found that ZGl-neo was the most efficient PB vector. This vector could insert into TTAA sites in DF-1 cells. PB vectors were microinjected into sub-germinal cavity of newly laid eggs, and electroporation was then performed with a 20-V pulse for 5 cycles of 50 ms on and 100 ms off. GFP was expressed in different tissues of the embryos, including the gonads. Twenty-two chickens hatched after microinjection with compounds ZGl-neo and CAG-PBase (3:1). When we screened the blood DNA, 73 % (16/22) of the individuals were positive. Thirteen of the chickens grew to adulthood, 11 of which were males. 40 % (4/10) of the individuals were semen positive, and their copy numbers ranged from 0.05 to 0.21 (0.11, 0.21, 0.05, 0.06). No G1 offspring containing the integrated transposon were produced. We conclude that the PB transposon system is a novel useful tool for the efficient production of transgenic chickens.
由于鸡独特的繁殖机制,鸡的转基因技术的发展比哺乳动物慢得多。逆转录病毒方法是最成功的。piggyBac (PB) 是一种转座子,它有一个 13 bp 完美的末端反向重复序列。PB 可以插入 TTAA 位点,也可以在哺乳动物中精确切除。因此,我们选择 PB 作为建立生产转基因鸡的新方法的候选者。我们构建了三个表达 GFP 标记基因和新霉素抗性基因的供体载体 (ZGl-neo、ZGm-neo 和 ZGs-neo),基于 PB。我们分别用辅助载体 (CAG-PBase) 共转染每个供体载体。我们发现 ZGl-neo 是最有效的 PB 载体。该载体可插入 DF-1 细胞中的 TTAA 位点。PB 载体被微注射到新产下的卵的亚卵腔中,然后用 20-V 脉冲进行电穿孔,每 50-ms 进行 5 个周期,通 100-ms,断 50-ms。GFP 在胚胎的不同组织中表达,包括性腺。用化合物 ZGl-neo 和 CAG-PBase (3:1) 微注射后,有 22 只鸡孵化。当我们筛选血液 DNA 时,73%(16/22)的个体呈阳性。13 只鸡长到成年,其中 11 只是雄性。40%(4/10)的个体精液呈阳性,其拷贝数范围为 0.05 至 0.21(0.11、0.21、0.05、0.06)。没有产生含有整合转座子的 G1 后代。我们得出结论,PB 转座子系统是一种高效生产转基因鸡的新工具。
