The regulation of tryptophan biosynthesis in Pseudomonas aeruginosa.

Abstract

Eighteen auxotrophs of Pseudomonas aeruginosa requiring l-tryptophan for growth were isolated following nitrosoguanidine mutagenesis. Mutant blocks for each step of tryptophan biosynthesis were identified by enzymological assay. A regulatory mutant was characterized which was simultaneously constitutive for the gene products of trpA, trpB and trpD. Another class of regulatory mutant appears to synthesize tryptophan synthetase (i.e., trpE and trpF subunits) constitutively. The results implicate three control entities in the pathway of tryptophan biosynthesis: (i) The gene products of trpA, trpB and trpD are repressible by tryptophan, the range of enzyme specific activity varying at least fifty-fold. (ii) No regulation of the trpC gene product could be demonstrated, indicating that its synthesis is constitutive. (iii) The gene products of rpE and trpF are inducible by indoleglycerol 3-phosphate; the magnitude of induction can exceed 100-fold. These results together with some genetic data indicate a general similarity in gene-enzyme relationships between P. aeruginosa and P. putida. A number of specific differences that distinguish the two species are noted. A mutant blocked in the common pathway of aromatic biosynthesis was used to prove that enzymes of tryptophan biosynthesis other than tryptophan synthetase are not inducible by precursors of the common pathway such as chorismate. It is concluded that the concentration of tryptophan that signals total repression of the gene products of trpA, trpB and trpD is lower than the concentrations necessary for maximal feedback inhibition of anthranilate synthetase and for abolition of the induction of tryptophan synthetase.