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

Ziao Fu; Gabriele Indrisiunaite; Sandip Kaledhonkar; Binita Shah; Ming Sun; Bo Chen; Robert A. Grassucci; Mans Ehrenberg; Joachim Frank

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

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

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

When the ribosome encounters a stop codon, it recruits a release factor (RF) to hydrolyze the ester bond between the peptide chain and tRNA. RFs have structural motifs that recognize stop codons in the decoding center and a GGQ motif for induction of hydrolysis in the peptidyl transfer center 70 A away. Surprisingly, free RF2 is compact, with only 20 A between its codon-reading and GGQ motifs. Cryo-EM showed that ribosome-bound RFs have extended structures, suggesting that RFs are compact when entering the ribosome and then extend their structures upon stop codon recognition. Here we use timeresolved cryo-EM to visualize transient compact forms of RF1 and RF2 at 3.5 and 4 A resolution, respectively, in the codon-recognizing ribosome complex on the native pathway. About 25% of complexes have RFs in the compact state at 24 ms reaction time, and within 60 ms virtually all ribosome-bound RFs are transformed to their extended forms.

Original language	English
Title of host publication	Novel Developments in Cryo-EM of Biological Molecules
Subtitle of host publication	Resolution in Time and State Space
Publisher	Taylor and Francis
Pages	481-500
Number of pages	20
ISBN (Electronic)	9781000989441
ISBN (Print)	9789814968768
State	Published - Oct 6 2023

Cite this

Fu, Z., Indrisiunaite, G., Kaledhonkar, S., Shah, B., Sun, M., Chen, B., Grassucci, R. A., Ehrenberg, M., & Frank, J. (2023). The structural basis for release-factor activation during translation termination revealed by time-resolved cryogenic electron microscopy. In Novel Developments in Cryo-EM of Biological Molecules: Resolution in Time and State Space (pp. 481-500). Taylor and Francis.

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abstract = "When the ribosome encounters a stop codon, it recruits a release factor (RF) to hydrolyze the ester bond between the peptide chain and tRNA. RFs have structural motifs that recognize stop codons in the decoding center and a GGQ motif for induction of hydrolysis in the peptidyl transfer center 70 A away. Surprisingly, free RF2 is compact, with only 20 A between its codon-reading and GGQ motifs. Cryo-EM showed that ribosome-bound RFs have extended structures, suggesting that RFs are compact when entering the ribosome and then extend their structures upon stop codon recognition. Here we use timeresolved cryo-EM to visualize transient compact forms of RF1 and RF2 at 3.5 and 4 A resolution, respectively, in the codon-recognizing ribosome complex on the native pathway. About 25% of complexes have RFs in the compact state at 24 ms reaction time, and within 60 ms virtually all ribosome-bound RFs are transformed to their extended forms.",

author = "Ziao Fu and Gabriele Indrisiunaite and Sandip Kaledhonkar and Binita Shah and Ming Sun and Bo Chen and Grassucci, {Robert A.} and Mans Ehrenberg and Joachim Frank",

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Fu, Z, Indrisiunaite, G, Kaledhonkar, S, Shah, B, Sun, M, Chen, B, Grassucci, RA, Ehrenberg, M & Frank, J 2023, The structural basis for release-factor activation during translation termination revealed by time-resolved cryogenic electron microscopy. in Novel Developments in Cryo-EM of Biological Molecules: Resolution in Time and State Space. Taylor and Francis, pp. 481-500.

The structural basis for release-factor activation during translation termination revealed by time-resolved cryogenic electron microscopy. / Fu, Ziao; Indrisiunaite, Gabriele; Kaledhonkar, Sandip et al.
Novel Developments in Cryo-EM of Biological Molecules: Resolution in Time and State Space. Taylor and Francis, 2023. p. 481-500.

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

TY - CHAP

T1 - The structural basis for release-factor activation during translation termination revealed by time-resolved cryogenic electron microscopy

AU - Fu, Ziao

AU - Indrisiunaite, Gabriele

AU - Kaledhonkar, Sandip

AU - Shah, Binita

AU - Sun, Ming

AU - Chen, Bo

AU - Grassucci, Robert A.

AU - Ehrenberg, Mans

AU - Frank, Joachim

PY - 2023/10/6

Y1 - 2023/10/6

N2 - When the ribosome encounters a stop codon, it recruits a release factor (RF) to hydrolyze the ester bond between the peptide chain and tRNA. RFs have structural motifs that recognize stop codons in the decoding center and a GGQ motif for induction of hydrolysis in the peptidyl transfer center 70 A away. Surprisingly, free RF2 is compact, with only 20 A between its codon-reading and GGQ motifs. Cryo-EM showed that ribosome-bound RFs have extended structures, suggesting that RFs are compact when entering the ribosome and then extend their structures upon stop codon recognition. Here we use timeresolved cryo-EM to visualize transient compact forms of RF1 and RF2 at 3.5 and 4 A resolution, respectively, in the codon-recognizing ribosome complex on the native pathway. About 25% of complexes have RFs in the compact state at 24 ms reaction time, and within 60 ms virtually all ribosome-bound RFs are transformed to their extended forms.

AB - When the ribosome encounters a stop codon, it recruits a release factor (RF) to hydrolyze the ester bond between the peptide chain and tRNA. RFs have structural motifs that recognize stop codons in the decoding center and a GGQ motif for induction of hydrolysis in the peptidyl transfer center 70 A away. Surprisingly, free RF2 is compact, with only 20 A between its codon-reading and GGQ motifs. Cryo-EM showed that ribosome-bound RFs have extended structures, suggesting that RFs are compact when entering the ribosome and then extend their structures upon stop codon recognition. Here we use timeresolved cryo-EM to visualize transient compact forms of RF1 and RF2 at 3.5 and 4 A resolution, respectively, in the codon-recognizing ribosome complex on the native pathway. About 25% of complexes have RFs in the compact state at 24 ms reaction time, and within 60 ms virtually all ribosome-bound RFs are transformed to their extended forms.

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M3 - Chapter

AN - SCOPUS:85169755533

SN - 9789814968768

SP - 481

EP - 500

BT - Novel Developments in Cryo-EM of Biological Molecules

PB - Taylor and Francis

ER -

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

Abstract

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