School of Biotechnology, Jawaharlal Nehru University, New Delhi, India.
Mol Biotechnol. 2013 Jun;54(2):692-702. doi: 10.1007/s12033-012-9611-y.
Over-expression of recombinant proteins in Escherichia coli triggers a metabolic stress response which causes a sharp decline in both growth and product formation rates post induction. We identified a key down-regulated substrate utilization gene, glycerol kinase (glpK), whose up-regulation could help alleviate this stress response. In a proof of principal study conducted in shake flask cultures, the glpK gene under the "ara" promoter in a pPROLar.A122 vector was co-transformed along with the recombinant interferon-β (rhIFN-β) gene in a pET22b vector into E. coli BL-21(DE3) cells. Co-expression of glpK improved the expression levels of rhIFN-β in glycerol containing medium, while no such gain was observed in medium without glycerol. This study was extended to high cell density fed-batch cultures where exponential feeding of complex substrates was done to increase biomass and hence product titers. For this we first constructed a modified E. coli strain BL-21(glpK (+)) where the glpK gene was inserted downstream of the ibpA promoter in the host chromosome. There was a significant improvement in growth as well as expression levels of rhIFN-β in this modified strain when the feed medium contained high glycerol. A final product concentration of 4.8 g/l of rhIFN-β was obtained with the modified strain which was 35 % higher than the control.
在大肠杆菌中过度表达重组蛋白会引发代谢应激反应,导致诱导后生长和产物形成速率急剧下降。我们鉴定出一个关键的下调底物利用基因,甘油激酶(glpK),其上调可以帮助缓解这种应激反应。在一项摇瓶培养的初步研究中,在 pPROLar.A122 载体中的“ara”启动子下的 glpK 基因与在 pET22b 载体中的重组干扰素-β(rhIFN-β)基因一起转化到大肠杆菌 BL-21(DE3)细胞中。glpK 的共表达提高了甘油存在的培养基中 rhIFN-β的表达水平,而在没有甘油的培养基中则没有观察到这种提高。这项研究扩展到高密度补料分批培养,其中进行了复杂底物的指数级补料以增加生物量,从而提高产物滴度。为此,我们首先构建了一个改良的大肠杆菌菌株 BL-21(glpK (+)),其中 glpK 基因插入宿主染色体中 ibpA 启动子的下游。在含有高甘油的进料培养基中,该改良菌株的生长和 rhIFN-β的表达水平有了显著提高。改良菌株最终获得了 4.8 g/l 的 rhIFN-β产物浓度,比对照提高了 35%。
