Kinetic Analysis of Late Steps of Eukaryotic Translation Initiation

Michael G. Acker; Byung Sik Shin; Jagpreet S. Nanda; Adesh K. Saini; Thomas E. Dever; Jon R. Lorsch

doi:10.1016/j.jmb.2008.10.029

Kinetic Analysis of Late Steps of Eukaryotic Translation Initiation

Michael G. Acker, Byung Sik Shin, Jagpreet S. Nanda, Adesh K. Saini, Thomas E. Dever, Jon R. Lorsch

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

49 Scopus citations

Abstract

Little is known about the molecular mechanics of the late events of translation initiation in eukaryotes. We present a kinetic dissection of the transition from a preinitiation complex after start codon recognition to the final 80S initiation complex. The resulting framework reveals that eukaryotic initiation factor (eIF)5B actually accelerates the rate of ribosomal subunit joining, and this acceleration is influenced by the conformation of the GTPase active site of the factor mediated by the bound nucleotide. eIF1A accelerates joining through its C-terminal interaction with eIF5B, and eIF1A release from the initiating ribosome, which occurs only after subunit joining, is accelerated by GTP hydrolysis by eIF5B. Following subunit joining, GTP hydrolysis by eIF5B alters the conformation of the final initiation complex and clears a path to promote rapid release of eIF1A. Our data, coupled with previous work, indicate that eIF1A is present on the ribosome throughout the entire initiation process and plays key roles at every stage.

Original language	English (US)
Pages (from-to)	491-506
Number of pages	16
Journal	Journal of molecular biology
Volume	385
Issue number	2
DOIs	https://doi.org/10.1016/j.jmb.2008.10.029
State	Published - Jan 16 2009
Externally published	Yes

Keywords

eIF1A
eIF5B
eukaryotic translation initiation
protein synthesis
subunit joining

ASJC Scopus subject areas

Structural Biology
Molecular Biology

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10.1016/j.jmb.2008.10.029

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title = "Kinetic Analysis of Late Steps of Eukaryotic Translation Initiation",

abstract = "Little is known about the molecular mechanics of the late events of translation initiation in eukaryotes. We present a kinetic dissection of the transition from a preinitiation complex after start codon recognition to the final 80S initiation complex. The resulting framework reveals that eukaryotic initiation factor (eIF)5B actually accelerates the rate of ribosomal subunit joining, and this acceleration is influenced by the conformation of the GTPase active site of the factor mediated by the bound nucleotide. eIF1A accelerates joining through its C-terminal interaction with eIF5B, and eIF1A release from the initiating ribosome, which occurs only after subunit joining, is accelerated by GTP hydrolysis by eIF5B. Following subunit joining, GTP hydrolysis by eIF5B alters the conformation of the final initiation complex and clears a path to promote rapid release of eIF1A. Our data, coupled with previous work, indicate that eIF1A is present on the ribosome throughout the entire initiation process and plays key roles at every stage.",

keywords = "eIF1A, eIF5B, eukaryotic translation initiation, protein synthesis, subunit joining",

author = "Acker, {Michael G.} and Shin, {Byung Sik} and Nanda, {Jagpreet S.} and Saini, {Adesh K.} and Dever, {Thomas E.} and Lorsch, {Jon R.}",

note = "Funding Information: We thank members of our labs and Alan Hinnebusch for comments on the manuscript. Work on eIF1A was funded by National Institutes of Health grant GM62128 to J.R.L., and work on eIF5B was funded by American Cancer Society grant RSG-03-156-01 to J.R.L. This work was also supported by the Intramural Research Program of the National Institutes of Health, National Institute of Child Health and Human Development (to T.E.D.). ",

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AU - Shin, Byung Sik

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AU - Dever, Thomas E.

AU - Lorsch, Jon R.

N1 - Funding Information: We thank members of our labs and Alan Hinnebusch for comments on the manuscript. Work on eIF1A was funded by National Institutes of Health grant GM62128 to J.R.L., and work on eIF5B was funded by American Cancer Society grant RSG-03-156-01 to J.R.L. This work was also supported by the Intramural Research Program of the National Institutes of Health, National Institute of Child Health and Human Development (to T.E.D.).

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N2 - Little is known about the molecular mechanics of the late events of translation initiation in eukaryotes. We present a kinetic dissection of the transition from a preinitiation complex after start codon recognition to the final 80S initiation complex. The resulting framework reveals that eukaryotic initiation factor (eIF)5B actually accelerates the rate of ribosomal subunit joining, and this acceleration is influenced by the conformation of the GTPase active site of the factor mediated by the bound nucleotide. eIF1A accelerates joining through its C-terminal interaction with eIF5B, and eIF1A release from the initiating ribosome, which occurs only after subunit joining, is accelerated by GTP hydrolysis by eIF5B. Following subunit joining, GTP hydrolysis by eIF5B alters the conformation of the final initiation complex and clears a path to promote rapid release of eIF1A. Our data, coupled with previous work, indicate that eIF1A is present on the ribosome throughout the entire initiation process and plays key roles at every stage.

AB - Little is known about the molecular mechanics of the late events of translation initiation in eukaryotes. We present a kinetic dissection of the transition from a preinitiation complex after start codon recognition to the final 80S initiation complex. The resulting framework reveals that eukaryotic initiation factor (eIF)5B actually accelerates the rate of ribosomal subunit joining, and this acceleration is influenced by the conformation of the GTPase active site of the factor mediated by the bound nucleotide. eIF1A accelerates joining through its C-terminal interaction with eIF5B, and eIF1A release from the initiating ribosome, which occurs only after subunit joining, is accelerated by GTP hydrolysis by eIF5B. Following subunit joining, GTP hydrolysis by eIF5B alters the conformation of the final initiation complex and clears a path to promote rapid release of eIF1A. Our data, coupled with previous work, indicate that eIF1A is present on the ribosome throughout the entire initiation process and plays key roles at every stage.

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Kinetic Analysis of Late Steps of Eukaryotic Translation Initiation

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