Production of L-Tryptophan by 5-Fluorotryptophan Resistant Mutants of Bacillus subtilis

The growth of Bacillus subtilis TR–44, a prototrophic transductant from one of inosine producers, was completely inhibited by 200 µg/ml of 5-fiuorotryptophan, a tryptophan analogue, and the inhibition was reversed by the addition of L-tryptophan.

Several mutants resistant to 5FT* produced L-tryptophan in the growing cultures. The best producer, strain FT–39, which was selected on a medium containing 1500 µg/ml of 5FT, produced 2 g/liter of L-tryptophan, when cultured in a medium containing 8% of glucose but without any tryptophan precursors. In this mutant, anthranilate synthetase, a key enzyme of the tryptophan biosynthesis, had increased over 280-fold, presumably owing to a genetic derepression. From FT–39, mutants resistant to 7000 µg/ml of 5FT were derived. Among them, strain FF–25 produced 4 g/liter of L-tryptophan, twice as much as did the parental strain. Since this strain produced large amount of L-phenylalanine as well as L-tryptophan, the genetic alteration seemed to be involved in some metabolic regulation of common part of the aromatic amino acid biosynthetic pathway.

Further, some auxotrophs derived from these 5FT resistant mutants produced more L-tryptophan than did the parental strains.

Relationships between the accumulation of L-tryptophan and the regulation mechanisms of the L-tryptophan biosynthesis were discussed.