Amplification of the tryptophan operon gene in Escherichia coli chromosome to increase l-tryptophan biosynthesis

Classical mutagenesis could desensitize the feedback inhibition of l-tryptophan (l-Trp) biosynthesis. Among the mutants, a5-fluorotryptophan-resistant strain, Escherichia coli EMS4-C25 produced 3 g/l of l-Trp within 18 h. The feedback-resistant l-Trp operon gene (trp) prepared from E. coli EMS4-C25 was inserted into pUC19 and pHSG576 to generate pTC701 and pTC576, respectively. When pHSG576 and pTC701 were introduced into E. coli EMS4-C25, chromosomal integration occured through homologous recombination. By using Souther hybridization, we demostrated that the integrated plasmids existed as multicopies. The strains with integrated foreign trp operon gene had higher activities of anthranilate synthase and Trp synthase than those found for the host strain and produced 9.2 g/l of l-Trp with 13% conversion yield from d-glucose. The integration and implification of the trp-operon-beraing plasmid avoided the plasmid instability and increased l-TRp production.