番茄rbcS3A启动子控制的GUS融合基因在转基因水稻中的表达

为研究不同启动子用于转基因水稻,克隆了番茄Rubisco小亚基rbcS3A基因的5′上游调控区,构建了由rbcS3A启动子引导的GUS嵌合基因,并经农杆菌介导导入到水稻中。对转基因水稻植株中GUS活性的定性与定量测定结果表明,rbcS3A启动子可驱动GUS报告基因在转基因水稻植株茎和叶组织中高效表达,而在根和种子等器官中不表达或表达活性极弱,表现出一定的组织特异性。在转基因水稻中,番茄rbcS3A启动子驱动外源基因的表达不受光诱导。

Expression of the GUS Fusion Gene Controlled by the Tomato rbcS3A Promoter in Transgenic Rice

To use different types of promoters in transgenic rice research, the 1.1 kb 5'-upstream regulation region of one of the tomato (Solanum tuberosum L.) Rubisco small subunit gene, rbcS3A, was cloned and its sequences were confirmed by comparison with the known sequences in GenBank. The cloned rbcS3A promoter was fused to the 5'-upstream of GUS (beta-glucuronidase) coding region in a binary vector, and introduced into an elite japonica rice variety by Agrogacterium-mediated transformation. The integration of the GUS fusion gene into the genome of transgenic rice was confirmed by both PCR and Southern blot analysis. The results of both histochemical staining and quantitative analysis of GUS activity showed that the expression level of GUS fusion gene was significantly stronger in stem, leaf blade and sheath than in other organs of transgenic rice plants, and showed highest in the stem, which implies that the tomato rbcS3A promoter can make tissue-specific, in particular in the stem, expression of foreign genes in transgenic rice. The results present here also demonstrate that light induction had no effect on the expression of the foreign gene when regulated by the tomato rbcS3A promoter in transgenic rice. Our results show that the cloned tomato rbcS3A promoter might be very useful for the expression of target genes in transgenic rice, with particularly high efficiency in stem tissues.