Thr region between the operator and first structural gene of the tryptophan operon of Escherichia coli may have a regulatory function

Among a collection of 34 independent mutants with internal deletions in the trp operon of Escherichia coli we found six that fail to recombine with any known point mutant in trpE, the first gene in the operon. These six deletion mutants are regulated normally by tryptophan and thus appear to have the trp operator region intact. However, four of these deletions result in alterations in the maximum level of expression of the trpC, B and A genes when compared with wild type or with an internal deletion of similar length which retains a small operatorproximal segment of trpE. Two of these deletion mutants, trpΔED1 and trpΔED12, have lower levels of the protein products of trpB and trpA than the control strains. In contrast, deletions trpΔED2 and trpΔED102 both markedly increase the levels of the trpB and trpA polypeptides. Deletion mutant trpΔED2 has 3 to 3.5 times and mutant trpΔED102 has seven to eight times as much tryptophan synthetase β₂ and α proteins as the wild-type or deletion control strains. The increase in tryptophan synthetase β₂ and α proteins seen is a consequence of an increase in the level of trp mRNA directing the synthesis of these enzymes. The rate of synthesis of trpBA mRNA is increased in trpΔAED2 about twofold, and in trpΔED102 about four- to sixfold over the control strain. The left-hand deletion end-points of both trpΔED2 and trpΔAED102 have been shown to map to the right of a known trp operator-constitutive mutation and appear to lie before the first translation start codon in trpE (M. Bronson, C. Squires &; C. Yanofsky, unpublished results). We propose that these deletions alter a region between the earliest known trpE point mutation and the trp operator which influences the maximum rate of synthesis of trp operon mRNA.