Fusing affinity tag at N-terminus was reported to decrease the biological activity of the recombinant human tumor necrosis factor alpha. Although preparation of tag-free rhTNF-α has already been achieved, the processes were yet laborious, especially in large scale. In this paper, tag-free rhTNF-α was almost equally synthesized by Escherichia coli in both soluble and insoluble forms. A two-step ion exchange chromatography, DEAE-Sepharose combined with CM-Sepharose, was developed to purify the soluble specie from supernatant after cell lysis. Native PAGE and HP-SEC showed the rhTNF-α extracted from supernatant existed in a homogeneous form. HP-SAX and SDS-PAGE analysis demonstrated the purity of the final fraction was over 98% with a very high recovery of 75%. Circular dichroism spectrum demonstrated that β-sheet structure was dominant and fluorescence analysis suggested no dramatic exposure of aromatic amino acid residues on the protein surface. Bioassay indicated that purified rhTNF-α was biologically active with a specific activity of approximately 2.0×10(7)U/mg. All these results suggested that this two-step ion exchange chromatography is efficient for preparation of biologically active tag-free rhTNF-α from supernatant.
Keywords: E. coli expression; Purification; Supernatant; Tag-free rhTNF-α; Two-step ion exchange chromatography.
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