本文从受体材料、转化方法、目标基因、影响因素、转基因遗传等多个方面综述了迄今为止高羊茅遗传转化研究所取得的进展。
In this paper, progresses in genetic transformation of tall fescue were reviewed in terms of recipient materials, transformation methods, target genes, influencing factors and transgene inheritance.
我们综述了RGD与整合素受体的相互作用,RGD生物活性的影响因素以及它在生物材料内皮化方面的应用。
In this review, the interaction of RGD peptides sequence and integrins, the influential factors of RGD peptides bioactivity and its application in endothelialization of biomaterials were discussed.
小麦基因型扬麦158、扬麦10是优良的转化材料,以预培养4天的小麦幼胚为受体,培养力高,再生能力强。
Wheat genotypes Yangmai 158, Yangmai 10 are excellent transformation materials. Wheat immature embryos with 4 days preculture have high tissue culture response and strong regeneration capacity.
以转基因耐盐品种8912 2和其受体陇春13号两种小麦为实验材料,研究了小麦幼苗在不同盐浓度胁迫下呼吸途径动态变化。
Using transgenic salt tolerant wheat 89122 and its receptor Longchun 13 as test material, the dynamic changes of respiration pathway of wheat seedlings at different salt concentration were studied.
同时设计合成了一系列可溶液加工的新型有机给受体小分子太阳能电池给体材料。
Then we designed and synthesized a series of solution processible donor-acceptor small molecules as donor materials.
同时设计合成了一系列可溶液加工的新型有机给受体小分子太阳能电池给体材料。
Then we designed and synthesized a series of solution processible donor-acceptor small molecules as donor materials.
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