In vitro selection of RNA aptamer against Escherichia coli release factor 1

A pool of 84-nt RNAs containing a randomized sequence of 50 nt was selected against gel-immobilized Escherichia coli release factor 1 (RF-1) responsible for translation termination at amber (UAG) stop codon. The strongest aptamer (class II-1) obtained from 43 clones bound to RF-1, but not to UAA/UGA-targeting RF-2, with Kd = 30 ± 6 nM (SPR). A couple of unpaired hairpin domains in the aptamer were suggested as the sites of attachment of RF-1. By binding to and hence inhibiting the action of RF-1 specifically or bio-orthogonally, aptamer class II-1 enhanced the amber suppression efficiency in the presence of an anticodon-adjusted (CUA) suppressor tRNA without practically damaging the protein translation machinery of the cell-free extract of E. coli, as confirmed by the translation of amber-mutated (gfpamber141 or gfpamber178) and wild-type (gfpwild) genes of GFP.

Graphical abstractWe successfully selected RNA aptamers against Escherichia coli release factor 1, allowing an enhanced nonsense suppression at the amber (UAG) stop codon.Figure optionsDownload full-size imageDownload as PowerPoint slide