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ABSTRACT
1. In order to increase the efficiency of generating transgenic chicken, this trial focused on two points: primordial germ cells (PGCs)transfection in vivo and a germline-specific promoter.
2. In order to transfect PGCs in vivo, two plasmids (pZB-CAG-GFP, pCMV-ZB)were co-injected into chicken embryos via the subgerminal cavity at Hamburger and Hamilton (HH) stage 2–3 or via blood vessel at HH stage 13–14. Results showed that the percentage of GFP+ embryos, viability and hatching rate of embryos injected at HH stage 13–14 were significantly higher than that at HH stage 2–3.
3. Two plasmid transposon systems were used for chicken embryo micro-injections. The donor plasmid, with a green fluorescent protein (GFP) reporter gene, was mediated by the ZB transposon. The helper plasmid was a transposase expression vector driven by the promoter of the chicken vasa homologue (Cvh) gene or Human cytomegalovirus (CMV) promoter. Results showed that 60.98% of gonads in Cvh group expressed GFP, which was 52.50% higher than seen in the CMV group. Only gonad tissue from the Cvh group showed any GFP signal, whereas both gonads and other tissues in the CMV group showed green fluorescence.
4. The data suggested that ZB transposon-mediated gene transfer was efficient for transfecting PGCs in vivo; the Cvh promoter drove the transposase gene specifically in the germline and increased the efficiency of germline transmission. Blood vessels injection at HH stage 13–14 may be a more efficient route for PGCs transfection in vivo.
Disclosure statement
No potential conflict of interest was reported by the authors.