Abstract

Wheat germ cell-free protein synthesis systems have the potential to synthesize functional proteins safely and with high accuracy, but the poor energy supply and the instability of mRNA templates reduce the productivity of this system, which restricts its applications. In this report, phosphocreatine and pyruvate were added to the system to supply ATP as a secondary energy source. After comparing the protein yield, we found that phosphocreatine is more suitable for use in the wheat germ cell-free protein synthesis system. To stabilize the mRNA template, the plasmid vector, SP6 RNA polymerase, and Cu2+ were optimized, and a wheat germ cell-free protein synthesis system with high yield and speed was established. When plasmid vector (30ng/μl), SP6 RNA polymerase (15U), phosphocreatine (25mM), and Cu2+ (5mM) were added to the system and incubated at 26°C for 16h, the yield of venom kallikrein increased from 0.13 to 0.74mg/ml. The specific activity of the recombinant protein was 1.3U/mg, which is only slightly lower than the crude venom kallikrein (1.74U/mg) due to the lack of the sugar chain. In this study, the yield of venom kallikrein was improved by optimizing the system, and a good foundation has been laid for industrial applications and for further studies.

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