Control of phenylalanyl-tRNA synthetase genetic expression. Site-directed mutagenesis of the pheS, T operon regulatory region in vitro

Abstract

Previous studies of phenylalanyl-tRNA synthetase expression in Escherichia coli strongly suggested that the pheS, T operon was regulated by a phenylalanine-mediated attenuation mechanism. To investigate the functions of the different segments composing the pheS, T attenuator site, a series of insertion, deletion and point mutations in the pheS, T leader region have been constructed in vitro on a recombinant M13 phage. The effects of these alterations on the regulation of the operon were measured after transferring each mutation onto a lambda phage carrying a pheS, T-lacZ fusion. The behaviours of the various mutants agree with the predictions of the attenuation model. The role of the antiterminator (2-3 pairing) as competitor of the terminator (3-4 pairing) is demonstrated by several mutations affecting the stability of the 2-3 base-pairing. The existence of deletions and point mutations in the 3-4 base-pairing shows that the terminator is essential for both expression level and regulation of the operon. Mutations in the translation initiation site of the leader peptide show that the expression of the leader peptide is essential for attenuation control. However, alteration of the translation initiation rate of the leader peptide derepresses the pheS, T operon, which is the opposite of what is observed with the trp operon. This difference is explained in terms of different translation initiation efficiencies of the leader peptides. Finally, insertion mutations, increasing gradually the distance between the leader peptide stop codon and the first strand of the antiterminator, derepress the pheS, T operon and show that formation of the antiterminator structure is under the control of the translation of the leader peptide.