Soluble recombinant pyruvate oxidase production in Escherichia coli can be enhanced and inclusion bodies minimized by avoiding pH stress

BACKGROUND Recombinant pyruvate oxidase (pod) is in high demand owing to its broad application in biochemical analysis and low yield from wild microbial strains. Recombinant Escherichia coli harboring pET28a-pod is an efficient producer of pod, facilitating its production in high yield. Optimizing cultivation using shake flasks is necessary for high-level soluble pod production. RESULTS During recombinant E. coli cultivation, 96.9% of pod activity was lost, and 3.1% of residual pod activity remained in a 25 mL working volume in 250 mL flasks owing to accumulation of pod in insoluble inclusion bodies. pH stress was the factor responsible for this phenomenon based on investigating dissolved oxygen and carbon source addition. Residual pod activity was increased to 43.3, 88.0 and 61.5% by maintaining the pH at 5.0, 6.0 and 7.0 respectively during the induction phase, which decreased inclusion body formation and increased production of soluble pod. Glycerol addition increased the cell density and volumetric pod activity to 21 243.3 U L-1 at pH 6.0 after 64 h induction. CONCLUSION Soluble pod is converted to inclusion bodies under pH stress conditions, and this can be avoided by pH maintenance. (c) 2019 Society of Chemical Industry