Independent and coupled translational initiation of atp genes in Escherichia coli: experiments using chromosomal and plasmid‐borne lacZ fusions

Abstract

The translational initiation rates directed by the translational initiation regions (TIRs) of the atpB, atpH, atpA and atpG genes of Escherichia coli were investigated using lacZ fusions present on plasmids as well as integrated into the chromosome. This was the first investigation of the translational efficiency of the atpB gene, whose unfused product (subunit a) can be toxic to the cell. The specific mRNA levels, rates of in vivo protein synthesis and beta-galactosidase activities encoded by the atp::lacZ fusions were compared in order to obtain valid estimates of relative translation rates. The results indicate that in the E. coli atp operon, translation directed by the atpB, atpH and atpG TIRs is less efficient than that directed by the atpA TIR, and are thus consistent with earlier measurements of direct atp gene expression. Initiation is, however, to differing extents, controlled by coupling to the translation of upstream neighbours. There is particularly tight coupling between atpH and atpA. Increasing the distance between these two genes whilst maintaining the original atpA TIR structure decreased the degree of coupling. The influence of manipulations of the atpG TIR structure upon translational efficiency was quantitatively more pronounced when the atpG fusions were present as a single copy per chromosome. This is likely to be related to the mRNA binding characteristics of 30S ribosomal subunits and/or to the influence of other (trans-acting) factors. The control of independent and coupled initiation at the atp TIRs is discussed in relation to mRNA structure and possible cis and trans regulatory phenomena.