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W3060255120 abstract "Abstract Background The biotechnology production of enzymes is often troubled by the toxicity of the recombinant products of cloned and expressed genes, which interferes with the recombinant hosts’ metabolism. Various approaches have been taken to overcome these limitations, exemplified by tight control of recombinant genes or secretion of recombinant proteins. An industrial approach to protein production demands maximum possible yields of biosynthesized proteins, balanced with the recombinant host’s viability. Bacterial alkaline phosphatase (BAP) from Escherichia coli ( E. coli ) is a key enzyme used in protein/antibody detection and molecular cloning. As it removes terminal phosphate from DNA, RNA and deoxyribonucleoside triphosphates, it is used to lower self-ligated vectors’ background. The precursor enzyme contains a signal peptide at the N-terminus and is secreted to the E. coli periplasm. Then, the leader is clipped off and dimers are formed upon oxidation. Results We present a novel approach to phoA gene cloning, engineering, expression, purification and reactivation of the transiently inactivated enzyme. The recombinant bap gene was modified by replacing a secretion leader coding section with a N-terminal His6-tag, cloned and expressed in E. coli in a P BAD promoter expression vector. The gene expression was robust, resulting in accumulation of His6-BAP in the cytoplasm, exceeding 50% of total cellular proteins. The His6-BAP protein was harmless to the cells, as its natural toxicity was inhibited by the reducing environment within the E. coli cytoplasm, preventing formation of the active enzyme. A simple protocol based on precipitation and immobilized metal affinity chromatography (IMAC) purification yielded homogeneous protein, which was reactivated by dialysis into a redox buffer containing reduced and oxidized sulfhydryl group compounds, as well as the protein structure stabilizing cofactors Zn 2+ , Mg 2+ and phosphate. The reconstituted His6-BAP exhibited high activity and was used to develop an efficient protocol for all types of DNA termini, including problematic ones (blunt, 3′-protruding). Conclusions The developed method appears well suited for the industrial production of ultrapure BAP. Further, the method of transient inactivation of secreted toxic enzymes by conducting their biosynthesis in an inactive state in the cytoplasm, followed by in vitro reactivation, can be generally applied to other problematic proteins." @default.
W3060255120 created "2020-08-24" @default.
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W3060255120 date "2020-08-18" @default.
W3060255120 modified "2023-10-13" @default.
W3060255120 title "Boosting toxic protein biosynthesis: transient in vivo inactivation of engineered bacterial alkaline phosphatase" @default.
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W3060255120 doi "https://doi.org/10.1186/s12934-020-01424-y" @default.
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