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

The ilvGMEDA gene cluster of Escherichia coli K-12 has been the focus of intensive genetic and biochemical analysis for the past 30 years. Genetic regulation of the ilvGMEDA cluster involves attenuation, internal promoters, internal Rho-dependent termination sites, a site of polarity in the ilvG pseudogene of the wild-type organism, and autoregulation by the ilvA gene product, the biosynthetic L-threonine deaminase. We have now completed the nucleotide sequence of the 6600-bp cluster and have analyzed it, along with the ilvYC, ilvBN, and ilvIH genes, for codon frequencies and possible evolutionary relationships. The isoleucine content of each of the gene products of the ilvGMEDA cluster is quite similar (less than a two-fold variation), thus excluding one possible interpretation of the isoleucine-specific downstream amplification phenomenon. There is no evidence for retrograde evolution in the cluster since no significant homologies are detectable among genes that catalyze sequential reactions of the pathway. A highly significant homology does exist, however, between the threonine deaminases of yeast mitochondria and E. coli. The sequence at the boundary of the ilvA and ilvD genes is TAATAATG, so that the second TAA stop codon of ilvD overlaps the ATG initiation codon of ilvA.     

DNA sequence fine-structure analysis of ilvG (IlvG+) mutations of Escherichia coli K-12.

Six ilvG (IlvG+) mutations of Escherichia coli K-12 were transferred to recombinant plasmids, and the DNA sequence of each mutation was determined. This analysis confirmed that expression of the ilvG gene product (acetohydroxy acid synthase II) requires the deletion of a single base pair or the addition of two base pairs within ilvG to displace a frameshift site present in wild-type E. coli K-12. This system should be useful in the analysis of potential frameshift mutagens.     

Polarity suppressors increase expression of the wild-type tryptophan operon of Escherichia coli

Three new polarity suppressors, selected to relieve the polar effect of nonsense mutations in the tryptophan (trp) and lactose (lac) operons of Escherichia coli, increase expression distal to nonsense mutations in both operons to a greater extent than suA. These suppressors relieve the polarity created by amber, ochre and frameshift mutations with equal efficiency.Two of the three polarity suppressors elevate enzyme synthesis in the wildtype trp operon two- and fivefold, respectively. The increase in enzyme levels is in each case correlated with increased levels and rates of synthesis of structural gene trp messenger RNA. Since expression of all genes is elevated, these findings suggest the existence of a site early in the wild-type trp operon that affects the extent of operon expression. We located the site affected by these two polarity suppressors between the operator and the first structural gene, trpE. Although the third polarity suppressor also relieves mutational polarity efficiently, it has no detectable effect on expression of the wild-type trp operon.