The complete nucleotide sequence of the ilvGMEDA operon of Escherichia coli K-12.

In this report we present the complete nucleotide sequence of the ilvGMEDA operon of Escherichia coli. This operon contains five genes encoding four of the five enzymes required for the biosynthesis of isoleucine and valine. We identify and describe the coding regions for these five structural genes and the structural and functional features of the flanking and internal regulatory regions of this operon. This new information contributes to a more complete understanding of the overall control of the biosynthesis of isoleucine and valine.     

Point mutations in the regulatory region of the ilvGMEDA operon of Escherichia coli K-12.

The ilvGMEDA operon of Escherichia coli K-12 is preceded by a regulatory region containing a promoter, a leader, and an attenuator. This region has been extensively characterized biochemically. In this note point mutations of the regulatory region are reported. The effect of these mutations on expression from the ilv regulatory region supports the previous biochemical analysis.     

Integration host factor is required for positive regulation of the tdc operon of Escherichia coli.

A 14-bp segment in the promoter region of the tdcABC operon of Escherichia coli shows sequence identity with the consensus binding site for the E. coli integration host factor (IHF). In an himA (IHF-deficient) strain, expression of beta-galactosidase from a tdcB'-'lacZ protein fusion plasmid was about 10% of that seen with an isogenic himA+ strain. Threonine dehydratase activity from the chromosomal tdcB gene in the himA mutant was also about 10% of the wild-type enzyme level. Two different mutations introduced into the putative IHF-binding site in the fusion plasmid greatly reduced the plasmid-coded beta-galactosidase activity in cells containing IHF. In vitro gel retardation and DNase I footprinting analyses showed binding of purified IHF to the wild-type but not to the mutant promoter. IHF protected a 31-bp region between -118 and -88 encompassing the conserved IHF consensus sequence. These results suggest that efficient expression of the tdc operon in vivo requires a functional IHF and an IHF-binding site in the tdc promoter.     

Integration host factor amplifies the induction of the aceBAK operon of Escherichia coli by relieving IclR repression.

A binding site for integration host factor (IHF) was identified upstream of the aceBAK promoter. Under inducing conditions, IHF activates aceB::lacZ expression by opposing IclR repression. In contrast, IHF has little effect on aceB::lacZ expression under repressing conditions. The ability of IHF to relieve repression under inducing but not repressing conditions allows this protein to amplify the induction of aceBAK.     

gltBDF operon of Escherichia coli.

A 2.0-kilobase DNA fragment carrying antibiotic resistance markers was inserted into the gltB gene of Escherichia coli previously cloned in a multicopy plasmid. Replacement of the chromosomal gltB+ gene by the gltB225::omega mutation led to cells unable to synthesize glutamate synthase, utilize growth rate-limiting nitrogen sources, or derepress their glutamine synthetase. The existence of a gltBDF operon encoding the large (gltB) and small (gltD) subunits of glutamate synthase and a regulatory peptide (gltF) at 69 min of the E. coli linkage map was deduced from complementation analysis. A plasmid carrying the entire gltB+D+F+ operon complemented cells for all three of the mutant phenotypes associated with the polar gltB225::omega mutation in the chromosome. By contrast, plasmids carrying gltB+ only complemented cells for glutamate synthase activity. A major tricistronic mRNA molecule was detected from Northern (RNA blot) DNA-RNA hybridization experiments with DNA probes containing single genes of the operon. A 30,200-dalton polypeptide was identified as the gltF product, the lack of which was responsible for the inability of cells to use nitrogen-limiting sources associated with gltB225::omega.