目前,农杆菌介导法是苹果上应用的主要转化方法,叶片再生不定芽途径是被广泛应用的受体系统。
At present, Agrobacterium mediated transformation of leaves are widely adopted in apples, and transgenic shoots were mainly obtained from adventitious bud regeneration.
与棉花体细胞胚胎再生途径相比,棉花茎尖分生组织培养植株成苗的时间短,培养方法简单,也不受基因型的限制,适合作为基因转化的受体系统。
In comparison with embryogenesis, it is easy to get plantlets from shoot apical meristems, and it is suitable and convenience to be used as transformation system.
本研究从优化玉米幼胚培养遗传转化受体系统和抗病毒基因pap的转化两个方面进行研究。
Thus the suitable acceptance system of maize genetic transformation and transferring resistant maize virus gene (PAP) were studied.
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.
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.
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