摘要
[ Objective] To clone and express canine IL-2 gene and thus to provide theoretical support for the development of novel immune enhancers and genetic engineering vaccines. [ Method] Leukocytes separated from canine whole blood were stimulated by concanavalin for 20 h, and then total RNA was extracted. According to the sequence of canine IL-2 gene published in the GenBank, a pair of primers was designed. After PCR am- plificetion, the target fragment was cloned into prokaryotic expression vector pET-28a. The recombinants were transformed into the host bacteria BL21. After IPTG induction, the expression products were analyzed by SDS-PAGE. [ Result] A 500 bp band with the expected size appeared in the RT-PCR products. After the pMD18-T-IL2 was identified by double digestion, an approximately 500 bp fragment was produced, which indicated successful cloning of the gene. After the pET-28a-lL2 was identified by restriction enzyme digestion and PCR, a 500 bp fragment was produced, which indicated successful construction of the expression vector. As revealed by the SDS-PAGE analysis, a protein band with molecular weight of about 20 kDa appeared. [ Conclusion] The canine IL-2 gene was cloned and expressed.
[ Objective] To clone and express canine IL-2 gene and thus to provide theoretical support for the development of novel immune enhancers and genetic engineering vaccines. [ Method] Leukocytes separated from canine whole blood were stimulated by concanavalin for 20 h, and then total RNA was extracted. According to the sequence of canine IL-2 gene published in the GenBank, a pair of primers was designed. After PCR am- plificetion, the target fragment was cloned into prokaryotic expression vector pET-28a. The recombinants were transformed into the host bacteria BL21. After IPTG induction, the expression products were analyzed by SDS-PAGE. [ Result] A 500 bp band with the expected size appeared in the RT-PCR products. After the pMD18-T-IL2 was identified by double digestion, an approximately 500 bp fragment was produced, which indicated successful cloning of the gene. After the pET-28a-lL2 was identified by restriction enzyme digestion and PCR, a 500 bp fragment was produced, which indicated successful construction of the expression vector. As revealed by the SDS-PAGE analysis, a protein band with molecular weight of about 20 kDa appeared. [ Conclusion] The canine IL-2 gene was cloned and expressed.
基金
funded by the Project of Liaoning Education Department (L2010263)
