摘要
用带有质粒pGIH(35S-intron-GUS/ Hptr)的根癌农杆菌EHA101转化玉米愈伤组织,获得潮霉素抗性植株,再生性好的苏玉1 图7 Southern blot分析HpaII消化的质粒pGIH 和gusA基因沉默的愈伤组织的总DNA Fig.7 Southern blot analysis of plasmid pGIH(P) and plant genomic DNA of gusA gene si- lence callus(T)digested with HpaII号转化率可以达到8.1%。对转化植株进行GUS染色分析及PCR和Southern杂交检测证明外源基因已经整合,并能够稳定表达。反向PCR分析的三个转化植株,T-DNA插入片段均为单拷贝。部分失去分化能力的抗性愈伤组织,Southern blot分析发现其基因组中有gusA基因插入,但X-gluc染色呈阴性,经HpaII酶切分析发现整合的gusA基因发生了高度甲基化。
Several maize inbreds were transformed with Agrobacterium tumefaciens EHA101 (pGIH). Transgenic maize plants were obtained. Frequency of transformation of maize inbred Suyu No. 1 can reach 8. 1%. Results of PCR and Southern blot analysis proved that T-DNA was stably integrated into the genome of maize. Staining with X-gluc confirmed the expression of GUS gene in maize cells. The band amplified by inverse PCR
showed that the copy number of transgene in three transformants was single. After long term of subculture, some hygromycin resistant calli lost their regeneration ability. Although Southern blot probed the integration of gusA gene in their genome. GUS activity cannot be detected in those calli. Southern blot analysis of Hpall digest DNA showed that transgenic gusA gene was highly methylated.
出处
《实验生物学报》
CSCD
1999年第4期381-389,共9页
Acta Biologiae Experimentalis Sinica
关键词
农杆菌
玉米
遗传转化
甲基化
外源基因
Maize. Agrobacterium mediated transformation. Transgenic gene silence.
