Characterization of the translational start site for IF2β, a short form of Escherichia coli initiation factor IF2

Abstract

The gene for initiation factor IF2, infB, represents one of the few examples in Escherichia coli of genes encoding two protein products in vivo. In a previous work, our group showed that both forms of IF2 (alpha and beta) are closely related and may arise from two independent translational events on infB mRNA. Unambiguous mapping and rigorous determination of the nature of the initiation triplet for IF2 beta, the smaller form of IF2, is critical for future mutagenesis of this codon, required for investigating the biological importance of both IF2 alpha and IF2 beta. Three types of experiments were carried out. First, a 77-bp deletion was created at the beginning of the structural gene leading to premature termination of IF2 alpha synthesis. Under these conditions, IF2 beta is still formed. Second, various Bal31 digests of infB containing the 77-bp deletion were fused to lacZ. Any synthesis of a fused protein with beta-galactosidase activity should reflect the occurrence of an initiation event on the messenger corresponding to this DNA segment. It was consequently possible to locate the IF2 beta initiation site within an 18-base region containing an in-phase GUG codon. Third, to avoid any artefactual reinitiation event possibly occurring under our experimental conditions, we fused to lacZ an infB fragment devoid of IF2 alpha start sequences but containing genetic information for this 18-base region. A hybrid protein with beta-galactosidase activity was synthesized. Moreover, its NH2-terminal amino acid sequence coincided with that of IF2 beta, demonstrating that GUG, located 471 bases downstream from the IF2 alpha external start codon, is the internal start codon for the shorter form of IF2.