The dynamics of SecM-induced translational stalling

Albert Tsai; Guy Kornberg; Magnus Johansson; Jin Chen; Joseph D. Puglisi

doi:10.1016/j.celrep.2014.04.033

The dynamics of SecM-induced translational stalling

Albert Tsai, Guy Kornberg, Magnus Johansson, Jin Chen, Joseph D. Puglisi

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

34 Scopus citations

Abstract

SecM is an E. coli secretion monitor capable ofstalling translation on the prokaryotic ribosome without cofactors. Biochemical and structural studies have demonstrated that the SecM nascent chain interacts with the 50S subunit exit tunnel to inhibit peptide bond formation. However, the timescales and pathways of stalling on an mRNA remain undefined. To provide a dynamic mechanism for stalling, we directly tracked the dynamics of elongation on ribosomes translating the SecM stall sequence (FSTPVWISQAQGIRAGP) using single-molecule fluorescence techniques. Within 1min, three peptide-ribosome interactions work cooperatively over the last five codons of the SecM sequence, leading to severely impaired elongation rates beginning from the terminal proline and lasting four codons. Our results suggest that stalling is tightly linked to the dynamics of elongation and underscore the roles that the exit tunnel and nascent chain play in controlling fundamental steps in translation.

Original language	English (US)
Pages (from-to)	1521-1533
Number of pages	13
Journal	Cell Reports
Volume	7
Issue number	5
DOIs	https://doi.org/10.1016/j.celrep.2014.04.033
State	Published - Jun 12 2014
Externally published	Yes

ASJC Scopus subject areas

Biochemistry, Genetics and Molecular Biology(all)

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10.1016/j.celrep.2014.04.033

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title = "The dynamics of SecM-induced translational stalling",

abstract = "SecM is an E. coli secretion monitor capable ofstalling translation on the prokaryotic ribosome without cofactors. Biochemical and structural studies have demonstrated that the SecM nascent chain interacts with the 50S subunit exit tunnel to inhibit peptide bond formation. However, the timescales and pathways of stalling on an mRNA remain undefined. To provide a dynamic mechanism for stalling, we directly tracked the dynamics of elongation on ribosomes translating the SecM stall sequence (FSTPVWISQAQGIRAGP) using single-molecule fluorescence techniques. Within 1min, three peptide-ribosome interactions work cooperatively over the last five codons of the SecM sequence, leading to severely impaired elongation rates beginning from the terminal proline and lasting four codons. Our results suggest that stalling is tightly linked to the dynamics of elongation and underscore the roles that the exit tunnel and nascent chain play in controlling fundamental steps in translation.",

author = "Albert Tsai and Guy Kornberg and Magnus Johansson and Jin Chen and Puglisi, {Joseph D.}",

note = "Funding Information: This work was supported by grants from the NIH (GM51266 and GM099687) (to J.D.P.) and Wenner-Gren Foundations, Stockholm (to M.J.). We thank Alexey Petrov (Stanford) and Se{\'a}n O{\textquoteright}Leary (Stanford) for valuable discussions. J.D.P. is a consultant of Pacific Biosciences, a company commercializing sequencing technologies. ",

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AU - Tsai, Albert

AU - Kornberg, Guy

AU - Johansson, Magnus

AU - Chen, Jin

AU - Puglisi, Joseph D.

N1 - Funding Information: This work was supported by grants from the NIH (GM51266 and GM099687) (to J.D.P.) and Wenner-Gren Foundations, Stockholm (to M.J.). We thank Alexey Petrov (Stanford) and Seán O’Leary (Stanford) for valuable discussions. J.D.P. is a consultant of Pacific Biosciences, a company commercializing sequencing technologies.

PY - 2014/6/12

Y1 - 2014/6/12

N2 - SecM is an E. coli secretion monitor capable ofstalling translation on the prokaryotic ribosome without cofactors. Biochemical and structural studies have demonstrated that the SecM nascent chain interacts with the 50S subunit exit tunnel to inhibit peptide bond formation. However, the timescales and pathways of stalling on an mRNA remain undefined. To provide a dynamic mechanism for stalling, we directly tracked the dynamics of elongation on ribosomes translating the SecM stall sequence (FSTPVWISQAQGIRAGP) using single-molecule fluorescence techniques. Within 1min, three peptide-ribosome interactions work cooperatively over the last five codons of the SecM sequence, leading to severely impaired elongation rates beginning from the terminal proline and lasting four codons. Our results suggest that stalling is tightly linked to the dynamics of elongation and underscore the roles that the exit tunnel and nascent chain play in controlling fundamental steps in translation.

AB - SecM is an E. coli secretion monitor capable ofstalling translation on the prokaryotic ribosome without cofactors. Biochemical and structural studies have demonstrated that the SecM nascent chain interacts with the 50S subunit exit tunnel to inhibit peptide bond formation. However, the timescales and pathways of stalling on an mRNA remain undefined. To provide a dynamic mechanism for stalling, we directly tracked the dynamics of elongation on ribosomes translating the SecM stall sequence (FSTPVWISQAQGIRAGP) using single-molecule fluorescence techniques. Within 1min, three peptide-ribosome interactions work cooperatively over the last five codons of the SecM sequence, leading to severely impaired elongation rates beginning from the terminal proline and lasting four codons. Our results suggest that stalling is tightly linked to the dynamics of elongation and underscore the roles that the exit tunnel and nascent chain play in controlling fundamental steps in translation.

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The dynamics of SecM-induced translational stalling

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