Improving the refolding of NTA protein by urea gradient and arginine gradient size-exclusion chromatography

Xiangdong Fan, DianSheng Xu, Bing Lu, Jie `Xia, Dongzhi Wei
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引用次数: 13

Abstract

Inclusion body refolding processes play a major role in the production of recombinant proteins. Improvement of the size-exclusion chromatography refolding process was achieved by combining a decreasing urea gradient with an increasing arginine gradient (two gradients) for the refolding of NTA protein (a new thrombolytic agent) in this paper. Different refolding methods and different operating conditions in two gradients gel filtration process were investigated with regard to increasing the NTA protein activity recovery and inhibition of aggregation. The refolding of denatured NTA protein showed this method could significantly increase the activity recovery of protein at high protein concentration. The activity recovery of 37% was obtained from the initial NTA protein concentration up to 20 mg/ml. The conclusions presented in this study could also be applied to the refolding of lysozyme.

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尿素梯度和精氨酸梯度排阻色谱法改善NTA蛋白的再折叠
包涵体折叠过程在重组蛋白的产生中起着重要作用。本文通过对NTA蛋白(一种新型溶栓剂)重折叠的尿素梯度减小和精氨酸梯度增大(两个梯度)相结合的方法,改进了排粒径层析重折叠过程。研究了两种梯度凝胶过滤过程中不同的折叠法和不同的操作条件对提高NTA蛋白活性恢复和抑制聚集的影响。变性NTA蛋白的再折叠实验表明,该方法能显著提高蛋白在高浓度下的活性恢复。当NTA蛋白初始浓度为20 mg/ml时,活性回收率为37%。本研究的结论也可应用于溶菌酶的再折叠。
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