Spontaneous Intersubunit Rotation in Single Ribosomes

Peter V. Cornish; Dmitri N. Ermolenko; Harry F. Noller; Taekjip Ha

doi:10.1016/j.molcel.2008.05.004

Spontaneous Intersubunit Rotation in Single Ribosomes

Peter V. Cornish, Dmitri N. Ermolenko, Harry F. Noller, Taekjip Ha

Research output: Contribution to journal › Article › peer-review

Abstract

During the elongation cycle, tRNA and mRNA undergo coupled translocation through the ribosome catalyzed by elongation factor G (EF-G). Cryo-EM reconstructions of certain EF-G-containing complexes led to the proposal that the mechanism of translocation involves rotational movement between the two ribosomal subunits. Here, using single-molecule FRET, we observe that pretranslocation ribosomes undergo spontaneous intersubunit rotational movement in the absence of EF-G, fluctuating between two conformations corresponding to the classical and hybrid states of the translocational cycle. In contrast, posttranslocation ribosomes are fixed predominantly in the classical, nonrotated state. Movement of the acceptor stem of deacylated tRNA into the 50S E site and EF-G binding to the ribosome both contribute to stabilization of the rotated, hybrid state. Furthermore, the acylation state of P site tRNA has a dramatic effect on the frequency of intersubunit rotation. Our results provide direct evidence that the intersubunit rotation that underlies ribosomal translocation is thermally driven.

Original language	English (US)
Pages (from-to)	578-588
Number of pages	11
Journal	Molecular cell
Volume	30
Issue number	5
DOIs	https://doi.org/10.1016/j.molcel.2008.05.004
State	Published - Jun 5 2008
Externally published	Yes

Keywords

RNA

ASJC Scopus subject areas

Molecular Biology
Cell Biology

Online availability

10.1016/j.molcel.2008.05.004

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title = "Spontaneous Intersubunit Rotation in Single Ribosomes",

abstract = "During the elongation cycle, tRNA and mRNA undergo coupled translocation through the ribosome catalyzed by elongation factor G (EF-G). Cryo-EM reconstructions of certain EF-G-containing complexes led to the proposal that the mechanism of translocation involves rotational movement between the two ribosomal subunits. Here, using single-molecule FRET, we observe that pretranslocation ribosomes undergo spontaneous intersubunit rotational movement in the absence of EF-G, fluctuating between two conformations corresponding to the classical and hybrid states of the translocational cycle. In contrast, posttranslocation ribosomes are fixed predominantly in the classical, nonrotated state. Movement of the acceptor stem of deacylated tRNA into the 50S E site and EF-G binding to the ribosome both contribute to stabilization of the rotated, hybrid state. Furthermore, the acylation state of P site tRNA has a dramatic effect on the frequency of intersubunit rotation. Our results provide direct evidence that the intersubunit rotation that underlies ribosomal translocation is thermally driven.",

keywords = "RNA",

author = "Cornish, {Peter V.} and Ermolenko, {Dmitri N.} and Noller, {Harry F.} and Taekjip Ha",

note = "Funding Information: These studies were supported by grant number GM-017129 from the National Institutes of Health (NIH) to H.F.N., grant number GM-065367 from the NIH and a National Science Foundation (NSF) CAREER award to T.H., postdoctoral fellowship PF-07-123-01-GMC from the American Cancer Society to P.V.C., and a NATO-NSF postdoctoral fellowship to D.N.E. The authors thank Robyn Hickerson for small ribosomal subunit proteins used in reconstitution; Robyn Hickerson, Zigurts Majumdar, and Michelle Nahas for their early contributions to the project; and Andrei Korostelev and Laura Lancaster for discussions. T.H. is an Investigator of the Howard Hughes Medical Institute. ",

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AU - Noller, Harry F.

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N2 - During the elongation cycle, tRNA and mRNA undergo coupled translocation through the ribosome catalyzed by elongation factor G (EF-G). Cryo-EM reconstructions of certain EF-G-containing complexes led to the proposal that the mechanism of translocation involves rotational movement between the two ribosomal subunits. Here, using single-molecule FRET, we observe that pretranslocation ribosomes undergo spontaneous intersubunit rotational movement in the absence of EF-G, fluctuating between two conformations corresponding to the classical and hybrid states of the translocational cycle. In contrast, posttranslocation ribosomes are fixed predominantly in the classical, nonrotated state. Movement of the acceptor stem of deacylated tRNA into the 50S E site and EF-G binding to the ribosome both contribute to stabilization of the rotated, hybrid state. Furthermore, the acylation state of P site tRNA has a dramatic effect on the frequency of intersubunit rotation. Our results provide direct evidence that the intersubunit rotation that underlies ribosomal translocation is thermally driven.

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Spontaneous Intersubunit Rotation in Single Ribosomes

Abstract

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