Department of BioAgricultural Sciences, National Chiayi University, Chiayi, 60004, Taiwan.
PRIT Biotech Co., Ltd., Chunan, 35053, Miaoli, Taiwan.
Plant Cell Rep. 2019 Aug;38(8):899-914. doi: 10.1007/s00299-019-02411-3. Epub 2019 Apr 19.
A 146-bp sugar response complex MTSRC is identified in the promoter of rice metallothionein OsMT2b gene conferring high-level expression of luciferase reporter gene and bioactive recombinant haFGF in transgenic rice. A rice subfamily type 2 plant metallothionein (pMT) gene, OsMT2b, encoding a reactive oxygen species (ROS) scavenger protein, has been previously shown to exhibit the most abundant gene expression in young rice seedling. Expression of OsMT2b was found to be regulated negatively by ethylene and hydrogen peroxide in rice stem node under flooding stress, but little is known about its response to sugar depletion. In this study, transient expression assay and transgenic approach were employed to characterize the regulation of the OsMT2b gene expression in rice. We found that the expression of OsMT2b gene is induced by sugar starvation in both rice suspension cells and germinated embryos. Deletion analysis and functional assay of the OsMT2b promoter revealed that the 5'-flanking region of the OsMT2b between nucleotides - 351 and - 121, which contains the sugar response complex (- 266 to - 121, designated MTSRC) is responsible for high-level promoter activity under sugar starvation. It was also found that MTSRC significantly enhances the Act1 promoter activity in transgenic rice cells and seedlings. The modified Act1 promoter, Act1-MTSRC, was used to produce the recombinant human acidic fibroblast growth factor (haFGF) in rice cells. Our result shows that the bioactive recombinant haFGF is stably produced in transformed rice cell culture and yields are up to 2% of total medium proteins. Our studies reveal that MTSRC serves as a strong transcriptional activator and the Act1-MTSRC promoter can be applicable in establishing an efficient expression system for the high-level production of foreign proteins in transgenic rice cells and seedlings.
在水稻金属硫蛋白 OsMT2b 基因的启动子中鉴定出一个 146 个碱基对的糖应答复合物 MTSRC,该复合物可使荧光素酶报告基因和生物活性重组 haFGF 在转基因水稻中高水平表达。先前已经表明,水稻亚家族 2 型植物金属硫蛋白(pMT)基因 OsMT2b 编码一种活性氧(ROS)清除蛋白,在幼稻幼苗中表达最为丰富。在水淹胁迫下,水稻茎节点中发现 OsMT2b 的表达受乙烯和过氧化氢的负调控,但对其对糖耗竭的反应知之甚少。在这项研究中,采用瞬时表达测定和转基因方法来表征水稻中 OsMT2b 基因表达的调控。我们发现,在水稻悬浮细胞和萌发的胚胎中,OsMT2b 基因的表达在糖饥饿时被诱导。OsMT2b 启动子的缺失分析和功能测定表明,OsMT2b 基因在核苷酸 -351 到 -121 之间的 5'侧翼区,包含糖应答复合物(-266 到 -121,命名为 MTSRC),负责在糖饥饿下高水平启动子活性。还发现 MTSRC 显著增强了转基因水稻细胞和幼苗中 Act1 启动子的活性。经修饰的 Act1 启动子 Act1-MTSRC 用于在水稻细胞中生产重组人酸性成纤维细胞生长因子(haFGF)。我们的结果表明,生物活性的重组 haFGF 在转化的水稻细胞培养物中稳定产生,产量高达总培养基蛋白的 2%。我们的研究表明,MTSRC 可作为强转录激活子,并且 Act1-MTSRC 启动子可适用于在转基因水稻细胞和幼苗中建立高效的表达系统,用于高水平生产外源蛋白。
