recombinant DNA technology
英
美 [rɪˈkɑmbɪnənt ˌdiː en ˈeɪ tekˈnɑːlədʒi]
网络 DNA重组技术; 技术; 重组DNA技术; 重组; 重组 DNA技术
双语例句
- Prophylactic vaccines based on the use of virus-like particles ( VLPs) obtained from auto-assembly of L1 or L1 and L2 proteins produced by recombinant DNA technology are under phase I/ II clinical trials for HPV6/ 11 associated with condylomas.
通过DNA重组技术,基于HPV6/11型L1或L1和L2蛋白自我组装成病毒样颗粒的研究已经进入了I/II期临床实验。 - DNA is the most important genetic material. So the method and technique of DNA extracting is the basic method for biochemistry, molecular biology and recombinant DNA technology.
DNA是最重要的遗传物质,因此,DNA的提取方法和技术是生物化学及分子生物学最基本的技术,也是生物工程最常用的技术。 - In this study, recombinant DNA technology was applied for producing recombinant human BMP-4 mature peptide.
因此本研究利用基因工程生产人BMP-4成熟肽。 - The advent of recombinant DNA technology has provided efficient and cost-effective alternate sources for many therapeutic proteins.
重组DNA技术为许多治疗性蛋白的生产提供了一种有效的替代方法。 - Biochip technology is a great breakthrough of life science after recombinant DNA technology and polymerase chain reaction.
生物芯片技术是继基因工程(重组DNA技术)、聚合酶链式反应(PCR)之后在分子生物学领域中的又一重大突破。 - Methods: An artificial egf gene was constructed with recombinant DNA technology and inserted into pQE-40 to get a expression plasmid pQE-EGF, in which egf was fused with 6 × His tag. Plasmid pQE-EGF was transformed into E.
方法:用DNA重组技术构建EGF基因并插入表达载体pQE-40,与载体上的6×His标签融合,获得的表达质粒pQE-EGF转化E。 - However, phage-resistant starter cultures were traditionally obtained by recombinant DNA technology or conjugal transfer of plasmids confering phage resistance, which holded health potential dangers.
然而,噬菌体抗性菌株通常是通过DNA重组或携带噬菌体抗性基因的质粒的转移获得的,因而赋予所得菌株潜在的安全隐患。 - Therapeutic recombinant proteins are produced by the recombinant DNA technology.
重组药用蛋白质是指利用DNA重组技术生产的蛋白质。 - Application of recombinant DNA technology in entomology
重组DNA技术在昆虫学中的应用 - Although we are now able to produce pharmacological peptides by recombinant DNA technology, yet we fail to produce amidated peptides in the same way because bacteria lack the a-amidase.
尽管我们能够通过重组DNA技术利用细菌生产具有药理活性的蛋白质,然而这种技术却不能用于生产酰胺化多肽,因为细菌中没有α-酰胺化酶。