Abstract

Recombinant streptavidin is extremely difficult to express at high levels in the cytoplasm of Escherichia coli without the formation of inclusion bodies. Fusing a solubility enhancing partner to an aggregation prone protein is a widely used tool to circumvent inclusion body formation. Here, we use streptavidin as a target protein to test the properties of N-terminal fragments of translation initiation factor IF2 from E. coli as a solubility partner. Domain I (residue 1–158) of IF2 is superior to the well-established solubility partners maltose-binding protein (MBP) and NusA for soluble expression of active streptavidin. The number of active streptavidin molecules isolated by chromatography is increased threefold when domain I is used as solubility partner as compared to MBP or NusA. The relatively small size, high expressivity, and extreme solubility make domain I of IF2 an ideal partner for streptavidin and may also prevent other recombinant proteins such as ScFv antibodies from being expressed as insoluble aggregates in the cytoplasm of E. coli.

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