摘要
植物生物反应器的研究已成为当前基因工程领域的一个新生长点。本实验用 PCR方法 ,从丙型肝炎病毒 c DNA文库中克隆了非结构 NS3区基因片段及核心抗原 C区基因片段 ,并在两段基因间加入连接肽 SPGS的密码子序列 ,构建成融合抗原基因 NS3- C。将该融合基因转入烟草叶绿体转化及表达载体中 ,通过基因枪转化法得到转基因植株。对 NS3- C融合基因转化植株进行 PCR及 Southern杂交试验分析 ,证明外源基因已整合到烟草叶绿体基因组中 ;对转化植株的 Southern杂交试验还表明 ,通过不断地分化筛选培养 。
Spectinomycin resistant calli and shoots were obtained from tobacco leaves bombarded with pSS 3 DNA which contains the NS 3 C chimeric antigen gene of hepatitis C virus. Further molecular screening on the transformed tobacco plants such as Southern blot and PCR amplifying were performed, which indicated that foreign gene had been integrated into the chloroplast genome. And Southern blot also showed that the homogenization degree will increase after repeatedly selected on spectinomycin medium. All of the above results showed that stable tobacco chloroplast genetic transformation system had been established, which provided a new way for plant engineering.
出处
《作物学报》
CAS
CSCD
北大核心
2000年第2期143-147,共5页
Acta Agronomica Sinica
关键词
丙型肝炎病毒
融合抗原基因
烟草
叶绿体表达体系
同质化
Hepatitis C virus
Chimeric antigen gene
Chloroplast expression system
Biolistic transformation
Homogenization
