TRYPTOPHAN SYNTHETASE IN BACILLUS SUBTILIS: EFFECTS OF HIGH POTASSIUM ION CONCENTRATION ON A TWO COMPONENT ENZYME

Studies on tryptophan synthetases from various strains of Bacillus subtilis

1. Tryptophan synthetase B of three strains of Bacillus subtilis was prepared from ;exo-protoplastic' and ;endo-protoplastic' fractions; the enzyme from ;exo-protoplastic' fraction was purified 30- to 120-fold by ammonium sulphate precipitation and DEAE-cellulose column chromatography; the latter step separated this enzyme from tryptophan synthetase A, tryptophanase and proteolytic enzymes, but the purified preparations were not stable. 2. The activity of tryptophan synthetase B did not depend on the presence of tryptophan synthetase A. 3. Tryptophan synthetases B of the strains tested differed in their utilization of 2- and 7-methylindole as compared with indole; this suggests that these tryptophan synthetases B are not identical.

Tryptophan synthetic pathway and its regulation in Chromobacterium violaceum

Extracts of Chromobacterium violaceum catalyzed all of the reactions involved in synthesizing tryptophan from chorismic acid. Tryptophan auxotrophs which had lost any of these activities did not produce the characteristic purple pigment, violacein, when grown on a medium in which tryptophan was limiting. Gel filtration of extracts allowed us to estimate molecular weights for the tryptophan enzymes. All of the enzymes appeared to have molecular weights below 100,000. No enzymes were observed to occur in aggregates. The specific activities of the enzymes of the tryptophan pathway did not change when mutants were grown under conditions of limiting or excess tryptophan. The first enzyme in the pathway, anthranilate synthetase, was subject to feedback control by the end product, tryptophan. Tryptophan acted as a noncompetitive inhibitor with respect to glutamine, one of the substrates for anthranilate synthetase, and as a competitive inhibitor of the reaction when chorismate, the other substrate, was varied. The nonlinearity observed in the Lineweaver-Burk plot in the latter case suggests that there may be more than one chorismate-binding site on anthranilate synthetase.