The human autophagy-related protein ATG7 (hATG7), an E1-like ubiquitin enzyme, activates two ubiquitin-like proteins, LC3 (Atg8) and Atg12, and promotes autophagosome formation. While hATG7 plays an essential role for the autophagy conjugation system, the production of full-length functional hATG7 in bacterial systems remains challenging. Previous studies have demonstrated that the HIV-1 virus-encoded Tat peptide ('GRKKRRQRRR') can increase the yield and solubility of heterologous proteins. Here, functional full-length hATG7 was expressed using the pET28b-Tat expression vector in the Escherichia coli BL21 (DE3) strain. Recombinant hATG7 protein aggregated as inclusion bodies while expressed with widely used prokaryotic expression plasmids. In contrast, the solubility of Tat-tagged hATG7 increased significantly with prolonged time compared to Tat-free hATG7. The recombinant proteins were purified to >90% homogeneity under native conditions with a single step of affinity chromatography purification. The results of in vitro pull-down and LC3B-I lipidation assays showed that Tat-tagged hATG7 directly interacted with LC3B-I and promoted LC3B-I lipidation, suggesting that Tat-tagged hATG7 has significant catalytic activity. Overall, this study provides a novel method for improving the functional expression of full-length hATG7 in bacterial systems by fusion with the Tat peptide, a process which may be applied in future studies of hATG7 structure and function.
Keywords: Autophagy; Escherichia coli; Functional expression; Human ATG7; Tat peptide.
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