Analysis of the Role of trans -Translation in the Requirement of tmRNA for λ imm P22 Growth in Escherichia coli

Abstract

ABSTRACT The small, stable RNA molecule encoded by ssrA , known as tmRNA or 10Sa RNA, is required for the growth of certain hybrid λ imm P22 phages in Escherichia coli . tmRNA has been shown to tag partially synthesized proteins for degradation in vivo by attaching a short peptide sequence, encoded by tmRNA, to the carboxyl termini of these proteins. This tag sequence contains, at its C terminus, an amino acid sequence that is recognized by cellular proteases and leads to degradation of tagged proteins. A model describing this function of tmRNA, the trans -translation model (K. C. Keiler, P. R. Waller, and R. T. Sauer, Science 271:990–993, 1996), proposes that tmRNA acts first as a tRNA and then as a mRNA, resulting in release of the original mRNA template from the ribosome and translocation of the nascent peptide to tmRNA. Previous work from this laboratory suggested that tmRNA may also interact specifically with DNA-binding proteins, modulating their activity. However, more recent results indicate that interactions between tmRNA and DNA-binding proteins are likely nonspecific. In light of this new information, we examine the effects on λ imm P22 growth of mutations eliminating activities postulated to be important for two different steps in the trans -translation model, alanine charging of tmRNA and degradation of tagged proteins. This mutational analysis suggests that, while charging of tmRNA with alanine is essential for λ imm P22 growth in E. coli , degradation of proteins tagged by tmRNA is required only to achieve optimal levels of phage growth. Based on these results, we propose that trans -translation may have two roles, the primary role being the release of stalled ribosomes from their mRNA template and the secondary role being the tagging of truncated proteins for degradation.