Rxivist logo

The structural basis for release factor activation during translation termination revealed by time-resolved cryogenic electron microscopy

By Ziao Fu, Gabriele Indrisiunaite, Sandip Kaledhonkar, Binita Shah, Ming Sun, Bo Chen, Robert A Grassucci, Måns Ehrenberg, Joachim Frank

Posted 14 Nov 2018
bioRxiv DOI: 10.1101/470047 (published DOI: 10.1038/s41467-019-10608-z)

When the mRNA translating ribosome encounters a stop codon in its aminoacyl site (A site), it recruits a class-1 release factor (RF) to induce hydrolysis of the ester bond between peptide chain and peptidyl-site (P-site) tRNA. This process, called termination of translation, is under strong selection pressure for high speed and accuracy. Class-1 RFs (RF1, RF2 in bacteria, eRF1 in eukarya and aRF1 in archaea), have structural motifs that recognize stop codons in the decoding center (DC) and a universal GGQ motif for induction of ester bond hydrolysis in the peptidyl transfer center (PTC) 70 Å away from the DC. The finding that free RF2 is compact with only 20 Å between its codon reading and GGQ motifs came therefore as a surprise. Cryo-electron microscopy (cryo-EM) then showed that ribosome-bound RF1 and RF2 have extended structures, suggesting that bacterial RFs are compact when entering the ribosome and switch to the extended form in a stop signal-dependent manner. FRET, cryo-EM and X-ray crystallography, along with a rapid kinetics study suggesting a pre-termination conformational change on the millisecond time-scale of ribosome-bound RF1 and RF2, have lent indirect support to this proposal. However, direct experimental evidence for such a short-lived compact conformation on the native pathway to RF-dependent termination is missing due to its transient nature. Here we use time-resolved cryo-EM to visualize compact and extended forms of RF1 and RF2 at 3.5 and 4 Å resolution, respectively, in the codon-recognizing complex on the pathway to termination. About 25% of ribosomal complexes have RFs in the compact state at 24 ms reaction time after mixing RF and ribosomes, and within 60 ms virtually all ribosome-bound RFs are transformed to their extended forms.

Download data

  • Downloaded 745 times
  • Download rankings, all-time:
    • Site-wide: 25,854 out of 117,931
    • In biophysics: 793 out of 4,604
  • Year to date:
    • Site-wide: 83,794 out of 117,931
  • Since beginning of last month:
    • Site-wide: 61,174 out of 117,931

Altmetric data

Downloads over time

Distribution of downloads per paper, site-wide


Sign up for the Rxivist weekly newsletter! (Click here for more details.)