包括细胞融合技术、细胞器移植、染色体工程和组织培养技术。
Including cell fusion technology, cell transplantation, chromosome engineering and tissue culture.
电场诱导是80年代以来兴起的一种细胞融合技术,在细胞遗传工程实践中具有很大应用价值。
The electric field-induced cell fusion is a new technique for somatic hybridization since 1980's, and has great application potential in cell genetic engineering.
通过细胞融合技术,可以培育出新物种,打破了传统的只有同种生物杂交的限制,实现种间的杂交。
Through cell fusion technology, could produce new species, only to break the traditional hybridization with species restrictions, to achieve hybridization between species.
利用细胞融合技术获得了一株高产赤藓糖醇的融合株RH-UV-L4-F9,其发酵能力强,赤藓糖醇产量高。
The fusant RH-UV-L4-F9 which attained by cell fusion has high fermenting ability and productivity.
方法对着色性干皮病患者成纤维细胞进行传代培养、建株,采用放射自显影和细胞融合技术分析X P 细胞互补组。
Methods From four XP patients, skin fibroblast cell strains were derived and used for the complementation group analysis by autoradiography and cell fusion technique.
应用细胞融合技术和扫描电镜研究了BK(牛肾)细胞早熟凝集染色体(PCC)和诱导PCC的CHO中期染色体的超微结构。
The ultrastructure of prematurely condensed chromosomes (PCC) in BK cells and the CHO metaphase chromosomes (the PCC inducer) were studied with cell fusion technique and SEM.
用这种体细胞融合的技术,如今已在动物间实现了小鼠和田鼠,小鼠和小鸡,甚至于小鼠和人等许多远缘和超远缘的体细胞杂交。
Somatic cell fusion with this technology in animals has been achieved in mice and voles, mice and chicks, and even mice and people, and many other distant and ultra-wide somatic cell hybridization.
新技术应该使科学家能够更容易地研究两个细胞融合时发生了什么。
The new technique should make it much easier for scientists to study what happens when two cells are combined.
人工诱导鱼类细胞融合是细胞工程中的一项重要技术。
The cell fusion of fish is an important technology in cell engineering.
这项技术不仅可以把不同种类或者不同来源的植物细胞或者动物细胞进行融合,还可以把动物细胞与植物细胞融合在一起。
This technology can not only different sources or different types of plant cells or animal cells to carry out the integration, but also to animal cells and plant cells together.
细胞大规模培养、体细胞融合、基因转导等技术的研究和应用,可望从根本上改变甘薯传统的生产和育种模式。
The application of the techniques of large_scale cell culture, somatic cell fusion and gene transformation will greatly change the traditional mode of production and breeding of sweet potato.
采用体细胞融合、转基因技术等手段已经培育出了一些耐冷的品种,无性系变异的利用也已经在一些作物上取得成功。
Through gene transferring and somatic hybridization, cold-tolerant varieties have been obtained and the exploitation of somaclonal variation of some crops also succeeds.
采用体细胞融合、转基因技术等手段已经培育出了一些耐冷的品种,无性系变异的利用也已经在一些作物上取得成功。
Through gene transferring and somatic hybridization, cold-tolerant varieties have been obtained and the exploitation of somaclonal variation of some crops also succeeds.
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