为培育唐菖蒲抗真菌病新品种奠定了基础,为单子叶花卉植物遗传转化提供了理论依据。
Stablished the foundation for cultivation of new disease-resistant gladiolus variety, Offered the theoretical foundation for genetic transformation of the monocotyledon.
通过时植物遗传转化受体系统以及遗传转化技术的评价,展现了高等植物遗传转化的美好前景。
By evaluating various receptor systems and techniques for foreign gene transfer, it ofters a fine prospect with plant foreign gene transfer systems.
叶绿体遗传化和核遗传化技术均已是比较成熟的植物遗传转化技术,然而二者的适用范围和优缺点却不相同。
Chloroplast genetic transformation technique and nucleus genetic transformation technique are mature enough for plant genetic transformation, but both vary in use and effect due to their characters.
对于苹果来说,建立一套高效基因转化技术体系和平台,将植物基因工程技术更为有效地应用到苹果遗传改良中去,具有重要的理论和现实意义。
It was significance of theory and reality that a high efficient transferring system was established and plant genetic engineering technology was applied to apple genetic improvement.
叶绿体遗传转化是植物基因工程的新方向。
Chloroplast genetic transformation is a new way of plant genetic engineering.
在植物基因工程中,农杆菌质粒介导的遗传转化是比较完善与有效的基因转移方法,但在单子叶植物上应用较少。
The gene transformation by agrobacterium'plasmid is a perfect and effective method of transferring gene in the gene engineering, however, there is a little applied on the monocotyledons plants.
离子束介导的遗传转化技术已在水稻、小麦、烟草、棉花等多种植物上取得成功。
A method of genetic transformation mediated by low energy ion beam implantation has been developed, and successfully applied on rice, wheat, tobacco, cotton and other crops.
遗传转化是植物遗传改良和基因功能研究的重要工具。
Genetic transformation is an important tool for studying genes function and breeding new varieties.
植物器官的再生通常是遗传转化的关键步骤,然而植物的再生能力依赖于不同的遗传背景。
Regeneration of plant organs is often the essential step in genetic transformation; however, the regeneration ability of a plant varies depending on the genetic background.
在植物基因工程中,农杆菌质粒介导的遗传转化是比较完善与有效的基因转移方法,但在单子叶植物上应用较少。
The gene transformation by agrobacterium'plasmid is a perfect and effective method of transferring gene in the gene engineering, however, there is a little apply on the monocotyledons plants.
本项研究初步建立了一种转化频率高、稳定性好、通用性较强的甜菜遗传转化技术体系,从而通过植物转基因技术为选育高产、优质、广谱抗病的甜菜品种奠定基础。
A stable and efficient Agrobacterium mediated transformation system has been established which offers a base for high yield, high quality and broad resistance of disease Sugarbeet variety.
本项研究初步建立了一种转化频率高、稳定性好、通用性较强的甜菜遗传转化技术体系,从而通过植物转基因技术为选育高产、优质、广谱抗病的甜菜品种奠定基础。
A stable and efficient Agrobacterium mediated transformation system has been established which offers a base for high yield, high quality and broad resistance of disease Sugarbeet variety.
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