Abstract
The production of L-tryptophan through chemical synthesis, direct fermentation, bioconversion and enzymatic conversion has been reported. However, the role of the transport system for the aromatic amino acids in Ltryptophan producing strains has not been fully explored. In this study, the aroP gene of the L-tryptophan producing Escherichia coli TRTH strain was disrupted using Red recombination technology and an aroP mutant E. coli TRTH ΔaroP was constructed. Fed-batch fermentation of E. coli TRTH ΔaroP was carried out in 30-L fermentor to investigate the L-tryptophan production. Compared with E. coli TRTH, the aroP mutant was able to maintain a higher growth rate during the exponential phase of the fermentation and the L-tryptophan production increased by 13.3%.
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