摘要
[Objective] The paper was to construct maize universal expression vector, in order to provide basis for using transgenic methods to improve abiotic stress tolerance of maize. [Method] Based on the transformation of existing pGreen0229 plant expression vector, phosphinothricin-resistant selectable marker-bar gene driving by CaMv35S promoter was constructed, which could be used to connect target gene of maize expression vector PGM-35Sbar, and transform Ji444 maize inbred lines by pollen tube pathway. [Result] The universal expression vector for PGM-35Sbar maize had been successfully constructed. When the maize plants were transformed, 14 resistant plants were obtained, and 12 plants were identified to be positive plants by PCR detection. [Conclusion] The study provided basis for rapid construction of maize expression vector containing specific target gene.
[目的]构建玉米通用表达载体,以期为利用转基因手段提高玉米对非生物胁迫的耐受性奠定基础。[方法]通过对现有的pGreen0229植物表达载体进行改造,构建含有CaMv35S启动子驱动的抗草胺膦筛选基因bar、可用于连接目的基因的玉米表达载体PGM-35Sbar,并通过花粉管通道法转化吉444玉米自交系。[结果]PGM-35Sbar玉米通用载体构建成功,转化玉米植株后,得到抗性植株14棵,经PCR检测其中有12棵为阳性植株。[结论]该研究为快速构建含有特定目的基因的玉米表达载体奠定了基础。
基金
Supported by National Transgenic Special Project(2009ZX08003-009B)
Beijing Science and Technology Commission Project(KJCX201102003)~~
