利用辐射诱变改造杂交水稻恢复系的研究结果表明:在平均水平上,国外品种比国内品种的辐射敏感性要强。
The work for improving restorer line of hybrid rice has been done. The results showed the radiosensitivity of foreign varieties overtakes Chinese ones at average level.
对采用辐射诱变获得的带有叶色白转绿特性的水稻光温敏核不育系“W1”的遗传及其生物学特性进行了研究。
Inheritance and main agronomic traits of photo-thermo-sensitive genic male sterile line W1 with a greenable albino leaf was investigated.
在综述微重力环境、空间辐射等对生物样本的诱变研究成果的基础上,论述了应用空间诱变技术进行高科技生物育种的理论基础。
On the basis of the research of microgravity environment, space radiation on bio sample mutagenesis, the theoretical basis of hi tech breeding with space mutation technique is discussed.
阐明了辐射对不同棉花品种的诱变效果存在变异均匀度和丰富度的差异。
This clarified that the radiation of different cotton varieties resulted in the different uniformity and abundant of the variation.
在离子注入生物诱变实验中,注入剂量决定了生物样品的辐射损伤程度,是要求精确测定并控制的一个重要参量。
For the implantation dose determines the irradiation injury degree of biological sample, it's a important parameter that should be measured and controlled accurately in the experiment.
用电子束辐射唐菖蒲种球,研究唐菖蒲的诱变育种。
Technique of mutation breeding in gladiola was studied by means of electron beam.
离子注入生物诱变是不同于传统辐射生物学的人工诱变新方法。
Ion implantation biological mutation is a new different artificial mutation method from the traditional irradiation biology.
结论此简易的细胞培养系统可使细胞于空间搭载条件下长期存活,有利于研究空间辐射对增殖期哺乳动物细胞的诱变效应。
ConclusionA hypothermia cell culture facility was successfully established, which ensure technically mammalian cells to be carried by space craft and further research on space radiation.
通过对其诱变机理的研究表明:太空的强辐射是生物发生诱变的主要原因;微重力是重要的辅助条件。
The study on the mechanism of mutation of living things in space showed that strong radiation in space was the main reasons, and the micro-gravity was another important condition for the mutation.
实验结果表明,同步辐射软x射线是进行曲酸生产菌诱变选育的潜在诱变源。
The results showed that the mutant induced by the X-rays of synchrotron radiation would be of potential for high ko - jic acid production.
实验结果表明,同步辐射软x射线是进行曲酸生产菌诱变选育的潜在诱变源。
The results showed that the mutant induced by the X-rays of synchrotron radiation would be of potential for high ko - jic acid production.
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