Efficient in vitro translational termination in Escherichia coli is constrained by the orientations of the release factor, stop signal and peptidyl-tRNA within the termination complex.

There have been contrasting reports of whether the positioning of a translational stop signal immediately after a start codon in a single oligonucleotide can act as a model template to support efficient in vitro termination. This paradox stimulated this study of what determines the constraints on the positioning of the components in the termination complex. The mini mRNA, AUGUGAA, was unable to support efficient in vitro termination in contrast to separate AUG/UGA(A) codons, unless the ribosomal interaction of the stop signal with the decoding factor, release factor 2, was stimulated with ethanol or with nucleotide-free release factor 3, or by using (L11-)-ribosomes which have a higher affinity for release factor 2, or unless the fMet-tRNA was first bound to 30S subunits independently of the mini mRNA. An additional triplet stop codon could restore activity of the mini mRNA, indicating that its recognition was not sterically restrained by the stop signal already within it. This suggests that in an initiation complex an adjoining start/stop signal is not positioned to support efficient decoding by release factor unless it is separated from the start codon. Site-directed crosslinking from mRNAs to components of the termination complex has shown that mRNA elements like the Shine-Dalgarno sequence and the codon preceding the stop signal can affect the crosslinking to release factor, and presumably the orientation of the signal to the factor.