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用绿色荧光蛋白监测转基因植物中选择标记基因的消除
引用本文:贾洪革 吕玲飞 庞永奇 陈晓英 方荣祥. 用绿色荧光蛋白监测转基因植物中选择标记基因的消除[J]. 生物工程学报, 2004, 20(1): 10-15
作者姓名:贾洪革 吕玲飞 庞永奇 陈晓英 方荣祥
作者单位:1. 中国科学院微生物研究所植物生物技术实验室,北京,100080
2. 中国科学院微生物研究所植物生物技术实验室,北京,100080;北京师范大学生命科学学院,北京,100875
3. 中国科学院微生物研究所植物生物技术实验室,北京,100080;西北农林科技大学生命科学学院,杨凌,712100
基金项目:国家高技术研究发展计划 ( 863计划 )资助 (No.2 0 0 2AA2 2 70 3 1)~~
摘    要:绿色荧光蛋白(GFP)可直接进行活体观察,它的这个优点可被用于监测转基因植物中选择标记基因的消除。为此,构建了植物表达载体pGNG,将绿色荧光蛋白基因(gfp)和卡那霉素抗性基因表达盒(NosP-nptll-NosT)一起克隆在两个同向的lox位点间,在第一个lox位点上游置有CaMV 35S启动子以驱动GFP表达,第二个lox位点下游置有不含启动子的大肠杆菌β-葡萄糖醛酸酶(GUS)基因。首先在含卡那霉素(Kan)的培养基上筛选出转pGNG的烟草,借助绿色荧光可容易地检出表达GFP的转化体。然后用另一转化载体pCambia1300Cre二次转化表达GFP的转基因植物,利用另一选择标记基因潮霉素抗性基因(hpt)进行筛选,在获得的再生植株中,Cre重组酶的表达消除了转化体中两lox位点间的gfpnptll。实验结果表明可借助GFP荧光的消失,快速选出nptII被消除的二次转化体,同时GUS(作为目的蛋白) 在CaMV 35S启动子驱动下获得表达。最后利用后代的分离将hptcre除去。

关 键 词:选择标记基因, 转基因植物, 绿色荧光蛋白
文章编号:1000-3061(2004)01-0010-06
修稿时间:2003-06-10

Using Green Fluorescent Protein as a Reporter to Monitor Elimination of Selectable Marker Genes from Transgenic Plants
Hong-Ge Jia,Ling-Fei Lü,Yong-Qi Pang,Xiao-Ying Chen,Rong-Xiang Fang. Using Green Fluorescent Protein as a Reporter to Monitor Elimination of Selectable Marker Genes from Transgenic Plants[J]. Chinese journal of biotechnology, 2004, 20(1): 10-15
Authors:Hong-Ge Jia  Ling-Fei Lü  Yong-Qi Pang  Xiao-Ying Chen  Rong-Xiang Fang
Affiliation:Laboratory of Plant Biotechnology, Institute of Microbiology, Chinese Academy of Sciences, Beijing 100080, China.
Abstract:In genetic modification of plants, once the transformants are obtained, selection markers are no longer required in mature plants. At present, the Cre/lox site-specific recombination system is most widely used to eliminate the selectable marker genes from the transgenic plants. In this study, attempt was made to favour the selection of marker-free plants in the re-transformation method. Green fluorescent protein (GFP) can be directly visualized in living cells, tissues or organisms under UV illumination. This advantage of GFP is exploited in the development of a practical approach in which GFP is used as a visual marker to monitor the removal of the selectable marker gene from transgenic plants. For that purpose, the pGNG binary vector was constructed, in which the GFP gene (gfp) was linked to the expression cassette Nos P-nptII-NosT and the two units were cloned between two directly-orientated lox sites. The CaMV 35S promoter was placed before the first lox site and used to drive GFP expression. The beta-glucuronidase gene (gus) of Escherichia coli was cloned behind the second lox site without a promoter, thus would not be expressed in this position. Tobacco plants were first transformed with pGNG and selected on kanamycin (Kan)-containing media. Regenerated transgenic shoots were readily singled out by GFP fluorescence. The GFP-expressing plants were then re-transformed with pCambia1300-Cre containing hygromycin phosphotransferase gene (hpt) as a selectable marker gene. The Cre-mediated recombination resulted in the elimination of lox-flanked genes, herein gfp and nptII, from the plant genome and brought the GUS gene next to the 35S promoter. Our data demonstrated that transgenic plants free of nptII were easily selected by monitoring the loss of green fluorescence, and at the same time, GUS (here as a target protein) was expressed in the nptII-free plants. Finally, hpt and cre were removed from the progenies of the nptII-free plants by gene segregation.
Keywords:selectable marker genes   transgenic plants   green fluorescent protein
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