EF-G2mt Is an Exclusive Recycling Factor in Mammalian Mitochondrial Protein Synthesis

Masafumi Tsuboi; Hiroyuki Morita; Yusuke Nozaki; Kenta Akama; Takuya Ueda; Koichi Ito; Knud H. Nierhaus; Nono Takeuchi

doi:10.1016/j.molcel.2009.06.028

EF-G2mt Is an Exclusive Recycling Factor in Mammalian Mitochondrial Protein Synthesis

Masafumi Tsuboi, Hiroyuki Morita, Yusuke Nozaki, Kenta Akama, Takuya Ueda, Koichi Ito, Knud H. Nierhaus, Nono Takeuchi^*

^*Corresponding author for this work

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

88 Citations (Scopus)

Abstract

Bacterial translation elongation factor G (EF-G) catalyzes translocation during peptide elongation and mediates ribosomal disassembly during ribosome recycling in concert with the ribosomal recycling factor (RRF). Two homologs of EF-G have been identified in mitochondria from yeast to man, EF-G1mt and EF-G2mt. Here, we demonstrate that the dual function of bacterial EF-G is divided between EF-G1mt and EF-G2mt in human mitochondria (RRFmt). EF-G1mt specifically catalyzes translocation, whereas EF-G2mt mediates ribosome recycling with human mitochondrial RRF but lacks translocation activity. Domain swapping experiments suggest that the functional specificity for EF-G2mt resides in domains III and IV. Furthermore, GTP hydrolysis by EF-G2mt is not necessary for ribosomal splitting, in contrast to the bacterial-recycling mode. Because EF-G2mt represents a class of translational GTPase that is involved in ribosome recycling, we propose to rename this factor mitochondrial ribosome recycling factor 2 (RRF2mt).

Original language	English
Pages (from-to)	502-510
Number of pages	9
Journal	Molecular Cell
Volume	35
Issue number	4
DOIs	https://doi.org/10.1016/j.molcel.2009.06.028
Publication status	Published - 2009 Aug 28
Externally published	Yes

Keywords

PROTEINS
RNA

ASJC Scopus subject areas

Molecular Biology
Cell Biology

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10.1016/j.molcel.2009.06.028

Cite this

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title = "EF-G2mt Is an Exclusive Recycling Factor in Mammalian Mitochondrial Protein Synthesis",

abstract = "Bacterial translation elongation factor G (EF-G) catalyzes translocation during peptide elongation and mediates ribosomal disassembly during ribosome recycling in concert with the ribosomal recycling factor (RRF). Two homologs of EF-G have been identified in mitochondria from yeast to man, EF-G1mt and EF-G2mt. Here, we demonstrate that the dual function of bacterial EF-G is divided between EF-G1mt and EF-G2mt in human mitochondria (RRFmt). EF-G1mt specifically catalyzes translocation, whereas EF-G2mt mediates ribosome recycling with human mitochondrial RRF but lacks translocation activity. Domain swapping experiments suggest that the functional specificity for EF-G2mt resides in domains III and IV. Furthermore, GTP hydrolysis by EF-G2mt is not necessary for ribosomal splitting, in contrast to the bacterial-recycling mode. Because EF-G2mt represents a class of translational GTPase that is involved in ribosome recycling, we propose to rename this factor mitochondrial ribosome recycling factor 2 (RRF2mt).",

keywords = "PROTEINS, RNA",

author = "Masafumi Tsuboi and Hiroyuki Morita and Yusuke Nozaki and Kenta Akama and Takuya Ueda and Koichi Ito and Nierhaus, {Knud H.} and Nono Takeuchi",

note = "Funding Information: We thank Drs. Markus Pech (Max-Planck Institute f{\"u}r Molekulare Genetik) and Yoshihiro Shimizu (University of Tokyo) for help and discussions. This work was supported in part by grants from the Japan Science and Technology Agency , the Mochida Memorial Foundation for Medical and Pharmaceutical Research , and the Uehara Memorial Foundation to N.T.; by the grant DFG NI 175/15-1 to K.H.N., by a Precursory Research for Embryonic Science and Technology program grant from Japan Science and Technology Agency to K.I., and by Grants-in-Aid from the Ministry of Education, Culture, Sports, Science and Technology of Japan to T.U. ",

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doi = "10.1016/j.molcel.2009.06.028",

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journal = "Molecular Cell",

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T1 - EF-G2mt Is an Exclusive Recycling Factor in Mammalian Mitochondrial Protein Synthesis

AU - Tsuboi, Masafumi

AU - Morita, Hiroyuki

AU - Nozaki, Yusuke

AU - Akama, Kenta

AU - Ueda, Takuya

AU - Ito, Koichi

AU - Nierhaus, Knud H.

AU - Takeuchi, Nono

N1 - Funding Information: We thank Drs. Markus Pech (Max-Planck Institute für Molekulare Genetik) and Yoshihiro Shimizu (University of Tokyo) for help and discussions. This work was supported in part by grants from the Japan Science and Technology Agency , the Mochida Memorial Foundation for Medical and Pharmaceutical Research , and the Uehara Memorial Foundation to N.T.; by the grant DFG NI 175/15-1 to K.H.N., by a Precursory Research for Embryonic Science and Technology program grant from Japan Science and Technology Agency to K.I., and by Grants-in-Aid from the Ministry of Education, Culture, Sports, Science and Technology of Japan to T.U.

PY - 2009/8/28

Y1 - 2009/8/28

N2 - Bacterial translation elongation factor G (EF-G) catalyzes translocation during peptide elongation and mediates ribosomal disassembly during ribosome recycling in concert with the ribosomal recycling factor (RRF). Two homologs of EF-G have been identified in mitochondria from yeast to man, EF-G1mt and EF-G2mt. Here, we demonstrate that the dual function of bacterial EF-G is divided between EF-G1mt and EF-G2mt in human mitochondria (RRFmt). EF-G1mt specifically catalyzes translocation, whereas EF-G2mt mediates ribosome recycling with human mitochondrial RRF but lacks translocation activity. Domain swapping experiments suggest that the functional specificity for EF-G2mt resides in domains III and IV. Furthermore, GTP hydrolysis by EF-G2mt is not necessary for ribosomal splitting, in contrast to the bacterial-recycling mode. Because EF-G2mt represents a class of translational GTPase that is involved in ribosome recycling, we propose to rename this factor mitochondrial ribosome recycling factor 2 (RRF2mt).

AB - Bacterial translation elongation factor G (EF-G) catalyzes translocation during peptide elongation and mediates ribosomal disassembly during ribosome recycling in concert with the ribosomal recycling factor (RRF). Two homologs of EF-G have been identified in mitochondria from yeast to man, EF-G1mt and EF-G2mt. Here, we demonstrate that the dual function of bacterial EF-G is divided between EF-G1mt and EF-G2mt in human mitochondria (RRFmt). EF-G1mt specifically catalyzes translocation, whereas EF-G2mt mediates ribosome recycling with human mitochondrial RRF but lacks translocation activity. Domain swapping experiments suggest that the functional specificity for EF-G2mt resides in domains III and IV. Furthermore, GTP hydrolysis by EF-G2mt is not necessary for ribosomal splitting, in contrast to the bacterial-recycling mode. Because EF-G2mt represents a class of translational GTPase that is involved in ribosome recycling, we propose to rename this factor mitochondrial ribosome recycling factor 2 (RRF2mt).

KW - PROTEINS

KW - RNA

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ER -

EF-G2mt Is an Exclusive Recycling Factor in Mammalian Mitochondrial Protein Synthesis

Abstract

Keywords

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