Wu Jing, Zhang Lianfen, Lei Jianyong, Cai Gangming, Zhu Wei, Lu Daru, Jin Jian
Department of Pharmaceutical and Molecular Biotechnology, School of Medicine & Pharmaceutics, Jiangnan University, Wuxi, Jiangsu 214122, People's Republic of China.
Appl Biochem Biotechnol. 2009 May;157(2):299-310. doi: 10.1007/s12010-008-8262-8. Epub 2008 Aug 5.
This study was aimed at increasing the production of the recombinant human ADAM15 disintegrin domain (RADD) in Escherichia coli by releasing the rare codons and restricting amino acid residues. Three different strategies for increasing RADD production were examined: to select the suitable host strain, to optimize the rare codons, and to delete the amino acids residues. The total fusion protein glutathione-S-transferase (GST)-RADD concentration of 298 mg/l and 326 mg/l were achieved by selecting E. coli Rosetta (DE3) as the host strain and by changing GGA to GGC at the GST-RADD cassette, respectively. The RADD concentration was increased by 35.7% by eliminating the "Pro-Glu-Phe" residues at the GST-RADD junction. By combinational utilizing the preferred codon introduction and amino acid sequence optimization in E. coli Rosetta (DE3), the highest RADD concentration of 68 mg/l was achieved. The proposed strategy may provide an alternative approach for other enhanced recombinant protein production by E. coli.
本研究旨在通过释放稀有密码子和限制氨基酸残基来提高重组人ADAM15解整合素结构域(RADD)在大肠杆菌中的产量。研究了三种提高RADD产量的不同策略:选择合适的宿主菌株、优化稀有密码子以及删除氨基酸残基。通过选择大肠杆菌Rosetta (DE3)作为宿主菌株,以及在GST-RADD盒中将GGA改为GGC,分别实现了总融合蛋白谷胱甘肽-S-转移酶(GST)-RADD浓度为298 mg/l和326 mg/l。通过消除GST-RADD连接处的“Pro-Glu-Phe”残基,RADD浓度提高了35.7%。通过在大肠杆菌Rosetta (DE3)中组合利用优选密码子引入和氨基酸序列优化,实现了最高RADD浓度68 mg/l。所提出的策略可能为大肠杆菌提高其他重组蛋白产量提供一种替代方法。
