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
- Before recombinant DNA technology enabled pharmaceutical companies to manufacture human insulin in the1980s, pig and cow insulin were routinely given to diabetic patients.
在1980年重组DNA技术出现使得药厂制造人类胰岛素出现以前,猪及牛的胰岛素已经成为为糖尿病患者治疗常规使用的药物。 - Sensitive assays require a highly purified enzyme with a high turnover number, and a low detection limit for the reaction product. Diagnostic enzymes produced by recombinant DNA technology, which increased yield and quality of enzyme and simplified preparing process, improved the development of EIA greatly.
利用基因工程生产诊断用酶,使酶的纯度大大提高,产量及质量均较自然来源酶好,简化了制备程序,大大促进了酶免疫分析技术的发展。 - 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。 - Nesiritide is a synthetic form of brain natriuretic peptide using recombinant DNA technology.
奈西立肽是利用重组DNA技术得到的合成型人类脑利钠肽。 - This highly interdisciplinary field is closely associated with both the physical and chemical properties of organic and inorganic nanoparticles, as well as to the various aspects of molecular cloning recombinant DNA and protein technology, and immune-ology.
这种新颖的交叉跨度很高的化学学科与有机/无机纳米粒子的物理化学性质,以及分子克隆,DNA重组,蛋白质技术和免疫学有着非常紧密的联系。 - With the development of recombinant DNA and peptide synthesize technology, and advantage in analytical separation technology, more and more proteins and peptides, such as enzyme, activators and inhibitors, poly-and monoclonal antibodies, and various vaccines, are used as pharmaceuticals in clinic.
随着重组DNA和多肽合成技术的发展,更加之分析分离技术的提高,越来越多的蛋白质和多肽,象酶、活性因子、抑制因子、多克隆与单克隆抗体、疫苗,被作为药物应用于临床。 - Application of recombinant DNA technology in entomology
重组DNA技术在昆虫学中的应用 - 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。 - This paper introduced the expression of BMP in Pichia Pastoris using recombinant DNA technology, determined the phenotype of X-33/ pPICZ α A-BMP, optimized the growth conditions and expression conditions.
文章介绍了利用基因工程技术在酵母菌中表达BMP的方法,对构建的Pichiapastoris酵母工程菌株X-33/pPICZαA-BMP进行了发酵表达,确定了菌株的表型、高密度生长及表达条件。 - 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。