核-质基因共调控的IGF-1在番茄果实质体中的表达特性研究

项目名称： 核-质基因共调控的IGF-1在番茄果实质体中的表达特性研究

项目编号： No.31260481

项目类型： 地区科学基金项目

立项/批准年度： 2013

项目学科： 农业科学

项目作者： 杨正安

作者单位： 云南农业大学

项目金额： 50万元

中文摘要： 植物叶绿体中高量表达外源蛋白后，会导致植株生长缓慢或对细胞产生毒害，解决这一难题是目前质体表达研究的热点。本项目利用SIG1-32融合因子能与质体RNA聚合酶结合和识别原核启动子groE的特性，分别构建E8、PG和AGPL1果实特异性启动子表达载体，农杆菌法转化番茄，获得成熟果实后利用质体瞬时表达体系，对启动子进行筛选，探讨启动子对核-质基因表达元件调控机制；在此基础上，构建groE::IGF-1番茄质体表达载体，采用基因枪法对核转基因植株进行二次质体转化，将IGF-1导入番茄质体基因组，分析IGF-1在果实中的表达水平和蛋白活性、解析IGF-1高效表达对番茄植株生长发育的影响，最终阐明核-质基因共调控下IGF-1在果实质体中的表达特性，建立可控的质体转基因表达新模式。项目为利用质体特异表达外源蛋白提供技术和理论基础；也可为利用番茄口服治疗糖尿病和作为生物反应器生产IGF-1奠定材料基础。

中文关键词： 番茄；质体转化；果实特异启动子；胰岛素样生长因子-1；调控表达

英文摘要： The potential to produce high levels of protein by plastid expression has recently increased interest in using plastid as biological factories. However, constitutive expression and overexpression of foreign proteins often lead to many constrains such as growth inhibition and toxicity to cells. In order to overcome this unfavorable pleiotropic effects, here we speculate a novel pattern of co-regulatory expression of nucleus-plastid genes which the foreign gene may specificly express in fruit plastid by the use of fruit-specific promoter and a transacivating fusion factor SIG1-32, targeting to plastid harboring the core RNA polymerase under the control of bacterial promoter groE. Our prior experiments have successfully completed, including construction of nucleus expression vector with fruit-specific promoter E8 and SIG1-32 fusion facort and tomato plastid expression vector with groE::gfp cassette, and confirmation the co-regulatory function of E8 and SIG1-32 using GFP gene transient expression in tomato fruits. Furthermore, we are planning to construct the vectors which contain different fruit-specific promoters, PG and AGPL1, and transform them into tomato via agrobacterium-mediated method. After obtaining the mature fruits of regenerated transgenic plants, the suitable promoter will be screened out by analysis

英文关键词： Tomato；Plastid trandformation；Fruit-specific promoter；IGF-1；Regulation of transplastomic gene expression