Authors
Nghia Hieu Nguyen, Yoichi Kumada, Michimasa Kishimoto, Jun ichi Horiuchi
First author
Nguyen Hieu Nghia
Corresponding author
Jun-ichi Horiuchi
Publication Style
Journal name Biochemical Engineering Journal
Year
Volume, issue, pages
176, 108184
Abstract
The stabilized production of anti-CRP single-chain Fv (scFv) antibody using recombinant E. coli by prolonged dissolved oxygen (DO)-stat fed-batch culture was demonstrated, focusing on the supply of nitrogen sources during fed-batch operation. The serious degradation of anti-CRP scFv by intracellular proteases was observed when the fermentation time was prolonged from 50 h to 100 h, which was presumably induced by the insufficient supply of free amino acids. To evaluate the effects of amino acid supply on the proteolysis of anti-CRP scFv, fed-batch experiments using yeast extract (YE)-enriched feeding medium, which had various blend ratios of glucose and YE (G/YE), were performed. By increasing the YE content in the feeding medium, the expression of intracellular proteases was significantly suppressed; consequently, the proteolysis of the scFv production was successfully prevented in 100 h fed-batch culture. The desired G/YE ratio to avoid proteolysis was 1.0 g-glucose/g-YE. The stabilization of scFv production accordingly resulted in the enhanced scFv production from 3.0 g/L in 50 h fed-batch culture to 4.0–5.2 g/L in 100 h fed-batch culture with more than 97% solubility which corresponded to 94.9% of increase in total scFv production by one fed-batch operation.