Gerstel B, McCarthy J E
Department of Microbiology, GBF--Gesellschaft für Biotechnologische Forschung mbH, Braunschweig, FRG.
Mol Microbiol. 1989 Jul;3(7):851-9. doi: 10.1111/j.1365-2958.1989.tb00234.x.
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.
利用存在于质粒上以及整合到染色体中的lacZ融合体,研究了大肠杆菌atpB、atpH、atpA和atpG基因的翻译起始区域(TIRs)指导的翻译起始速率。这是对atpB基因翻译效率的首次研究,其未融合产物(亚基a)可能对细胞有毒。比较了atp::lacZ融合体编码的特定mRNA水平、体内蛋白质合成速率和β-半乳糖苷酶活性,以获得相对翻译速率的有效估计。结果表明,在大肠杆菌atp操纵子中,由atpB、atpH和atpG TIRs指导的翻译比由atpA TIRs指导的翻译效率低,因此与早期对atp基因直接表达的测量结果一致。然而,起始在不同程度上受与上游相邻基因翻译偶联的控制。atpH和atpA之间的偶联尤为紧密。在保持原始atpA TIR结构的同时增加这两个基因之间的距离会降低偶联程度。当atpG融合体以每条染色体单拷贝存在时,atpG TIR结构操纵对翻译效率的影响在数量上更为明显。这可能与30S核糖体亚基的mRNA结合特性和/或其他(反式作用)因子的影响有关。讨论了atp TIRs处独立起始和偶联起始的控制与mRNA结构以及可能的顺式和反式调节现象的关系。