Yan Huanxin, Li Lei, Liu Ping, Jiang Xiaoqi, Wang Lei, Fang Jia, Lin Zhimin, Wang Feng, Su Jun, Lu Bao-Rong
Ministry of Education Key Laboratory for Biodiversity and Ecological Engineering, Department of Ecology and Evolutionary Biology, Fudan University, Songhu Road 2005, Shanghai, China.
Fujian Province Key Laboratory of Genetic Engineering for Agriculture, Fujian Academy of Agricultural Sciences, Wusi Road 247, Fuzhou, China.
Transgenic Res. 2017 Aug;26(4):465-475. doi: 10.1007/s11248-017-0016-3. Epub 2017 May 19.
Transgene flow form a genetically engineered (GE) crop to its wild relatives may result in unwanted environmental consequences. Mitigating transgenes via introducing a gene that is disadvantageous to wild relatives but beneficial to crops, and is tightly-linked with the target transgenes, may provide a promising solution to limit the spread of transgenes in wild/weedy populations. Here we demonstrate a novel system with significantly reduced seed shattering in crop-weed hybrid descendants by partially silenced expression of the seed-shattering gene SH4 in cultivated rice, using artificial microRNA and antisense RNA techniques. Accordingly, fewer seeds were found in the soil of the field plots where transgenic hybrid lineages were grown. However, no differences in productivity-related traits were detected between GE and non-GE cultivated rice. To silence seed-shattering genes provides a useful strategy to reduce the potential environmental impacts caused by transgene flow from commercial GE rice to weedy rice, in addition to the control of weedy rice.
转基因从基因工程作物流向其野生近缘种可能会导致不良的环境后果。通过导入一种对野生近缘种不利但对作物有益且与目标转基因紧密连锁的基因来减轻转基因的影响,可能为限制转基因在野生/杂草种群中的传播提供一个有前景的解决方案。在此,我们展示了一个新系统,通过利用人工微小RNA和反义RNA技术使栽培稻中种子破碎基因SH4的表达部分沉默,显著降低了作物-杂草杂交后代的种子散落。相应地,在种植转基因杂交谱系的田间地块土壤中发现的种子较少。然而,转基因栽培稻和非转基因栽培稻之间未检测到与生产力相关性状的差异。除了控制杂草稻外,使种子破碎基因沉默为减少商业转基因水稻向杂草稻的转基因流动所造成的潜在环境影响提供了一种有用的策略。
