建立高效再生体系是生产甘蔗健康种苗和进行遗传改良的前提。
Establishing high efficiency regeneration systems were precondition of yielding healthy seedling and genetic improvement for sugarcane.
建立了以薄皮甜瓜品种‘弥河银瓜’子叶为外植体的高效再生体系。
A efficient regeneration system of plantlets was established with cotyledon as explants in melon Cucumis melo l.
因此在桑离体培养中,可以通过添加硝酸银来控制离体器官发生,进而建立高效再生体系。
So, organogenesis in vitro of mulberry will be controlled in the course of culture by adding AgNO 3, and a highly effective regeneration system will be formed.
因此,研究大麦成熟胚组织培养条件和植株再生频率的影响因素,建立大麦成熟胚高效再生体系对于有效地开展大麦转基因研究具有重要意义。
So it was significant to build an efficient regeneration system for barley mature embryo by studying factors that influence barley mature embryo culture and plant regeneration.
优化了小麦组织培养条件,建立了以小麦幼穗切段、幼胚盾片和成熟胚盾片为外植体的高效稳定再生体系。
The high efficient plant regeneration systems have been established by optimizing tissue culture conditions using inflorescence explants, immature and mature embryo scutella as the target materials.
目前已建立了成熟的西瓜高效离体培养再生体系,主要应用于优良种苗快繁与重要性状遗传转化研究;
The highly efficiency in vitro culture and regeneration system were established and used for seedling rapid propagation and genetic transformation.
以三抗杨为试材,建立了三抗杨叶片外植体高效再生系统,为三抗杨遗传转化体系的建立奠定了良好的基础。
Regeneration system of Populus Sankang has been established from leaf explants, which laid the foundation for the establishment of genetic transformation system.
建立高效的植株再生体系是遗传转化的重要基础。
The establishment of effective regeneration system is a very important basis of genetic transformation.
本论文的研究内容及结果如下:1。通过对分化和生根培养基的筛选,我们建立了高效的番茄再生体系。
The results are as follows:1. We first established an efficient tomato regeneration system by screening differentiation and rooting medium.
为了建立高效稳定的甜瓜作物的植株再生体系,研究了甜瓜品种GT - 1在16种培养基上的植株再生情况。
In order to establish a stable and efficient plant regeneration system for Cucumis melon, plant regeneration of C. melon CV. GT-1 was studied on 16 culture mediums.
而要利用组织培养对离体组织进行染色体加倍,首先要建立高效的组织培养再生体系。
If artificial chromosome doubling in vitro is used, a high-efficient tissue culture system must be established.
建立草莓主栽品种高效、稳定的离体再生体系和遗传转化体系,获得了转基因植株。
An efficiency and stable regeneration system in vitro and genetic transformation system for the commercial strawberry varieties were developed, and transgenic plants were obtained.
以雪柑实生苗上胚轴为材料,建立了高效离体培养再生体系。
Study on In Vitro Culture and Plant Regeneration in Citrus Reticulata Blanco Epicotyl;
以雪柑实生苗上胚轴为材料,建立了高效离体培养再生体系。
Study on In Vitro Culture and Plant Regeneration in Citrus Reticulata Blanco Epicotyl;
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