Molecular genetic characterization of the Escherichia coli gntT gene of GntI, the main system for gluconate metabolism.

The Escherichia coli gntT gene was subcloned from the Kohara library, and its expression was characterized. The cloned gntT gene genetically complemented mutant E. coli strains with defects in gluconate transport and directed the formation of a high-affinity gluconate transporter with a measured apparent Km of 6 microM for gluconate. Primer extension analysis indicated two transcriptional start sites for gntT, which are separated by 66 bp and which give rise to what appears on a Northern blot to be a single, gluconate-inducible, 1.42-kb gntT transcript. Thus, it was concluded that gntT is monocistronic and is regulated by two promoters. Both of the promoters have - 10 and -35 sequence elements typical of sigma70 promoters and catabolite gene activator protein binding sites in appropriate locations to exert glucose catabolite repression. In addition, two putative gnt operator sites were identified in the gntT regulatory region. A search revealed the presence of nearly identical palindromic sequences in the regulatory regions of all known gluconate-inducible genes, and these seven putative gnt operators were used to derive a consensus gnt operator sequence. A gntT::lacZ operon fusion was constructed and used to examine gntT expression. The results indicated that gntT is maximally induced by 500 microM gluconate, modestly induced by very low levels of gluconate (4 microM), and partially catabolite repressed by glucose. The results also showed a pronounced peak of gntT expression very early in the logarithmic phase, a pattern of expression similar to that of the Fis protein. Thus, it is concluded that GntT is important for growth on low concentrations of gluconate, for entry into the logarithmic phase, and for cometabolism of gluconate and glucose.