Translational Control by Ribosome Pausing in Bacteria: How a Non-uniform Pace of Translation Affects Protein Production and Folding

Translational Control by Ribosome Pausing in Bacteria: How a Non-uniform Pace of Translation Affects Protein Production and Folding

Protein homeostasis of bacterial cells is maintained by coordinated processes of protein production, folding, and degradation. Translational efficiency of a given mRNA depends on how often the ribosomes initiate synthesis of a new polypeptide and how quickly they read the coding sequence to produce...

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Bibliographic Details
Main Authors: Ekaterina Samatova, Jan Daberger, Marija Liutkute, Marina V. Rodnina
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-01-01
Series:Frontiers in Microbiology
Subjects:
translation
ribosome pausing
tRNA
prokaryotes
cotranslational folding
translation efficiency
Online Access:https://www.frontiersin.org/articles/10.3389/fmicb.2020.619430/full
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spelling doaj-b1c838c467e24f9d9e20c99b0b51075d2021-01-11T04:25:12ZengFrontiers Media S.A.Frontiers in Microbiology1664-302X2021-01-011110.3389/fmicb.2020.619430619430Translational Control by Ribosome Pausing in Bacteria: How a Non-uniform Pace of Translation Affects Protein Production and FoldingEkaterina SamatovaJan DabergerMarija LiutkuteMarina V. RodninaProtein homeostasis of bacterial cells is maintained by coordinated processes of protein production, folding, and degradation. Translational efficiency of a given mRNA depends on how often the ribosomes initiate synthesis of a new polypeptide and how quickly they read the coding sequence to produce a full-length protein. The pace of ribosomes along the mRNA is not uniform: periods of rapid synthesis are separated by pauses. Here, we summarize recent evidence on how ribosome pausing affects translational efficiency and protein folding. We discuss the factors that slow down translation elongation and affect the quality of the newly synthesized protein. Ribosome pausing emerges as important factor contributing to the regulatory programs that ensure the quality of the proteome and integrate the cellular and environmental cues into regulatory circuits of the cell.https://www.frontiersin.org/articles/10.3389/fmicb.2020.619430/fulltranslationribosome pausingtRNAprokaryotescotranslational foldingtranslation efficiency
collection DOAJ
language English
format Article
sources DOAJ
author Ekaterina Samatova
Jan Daberger
Marija Liutkute
Marina V. Rodnina
spellingShingle Ekaterina Samatova
Jan Daberger
Marija Liutkute
Marina V. Rodnina
Translational Control by Ribosome Pausing in Bacteria: How a Non-uniform Pace of Translation Affects Protein Production and Folding
Frontiers in Microbiology
translation
ribosome pausing
tRNA
prokaryotes
cotranslational folding
translation efficiency
author_facet Ekaterina Samatova
Jan Daberger
Marija Liutkute
Marina V. Rodnina
author_sort Ekaterina Samatova
title Translational Control by Ribosome Pausing in Bacteria: How a Non-uniform Pace of Translation Affects Protein Production and Folding
title_short Translational Control by Ribosome Pausing in Bacteria: How a Non-uniform Pace of Translation Affects Protein Production and Folding
title_full Translational Control by Ribosome Pausing in Bacteria: How a Non-uniform Pace of Translation Affects Protein Production and Folding
title_fullStr Translational Control by Ribosome Pausing in Bacteria: How a Non-uniform Pace of Translation Affects Protein Production and Folding
title_full_unstemmed Translational Control by Ribosome Pausing in Bacteria: How a Non-uniform Pace of Translation Affects Protein Production and Folding
title_sort translational control by ribosome pausing in bacteria: how a non-uniform pace of translation affects protein production and folding
publisher Frontiers Media S.A.
series Frontiers in Microbiology
issn 1664-302X
publishDate 2021-01-01
description Protein homeostasis of bacterial cells is maintained by coordinated processes of protein production, folding, and degradation. Translational efficiency of a given mRNA depends on how often the ribosomes initiate synthesis of a new polypeptide and how quickly they read the coding sequence to produce a full-length protein. The pace of ribosomes along the mRNA is not uniform: periods of rapid synthesis are separated by pauses. Here, we summarize recent evidence on how ribosome pausing affects translational efficiency and protein folding. We discuss the factors that slow down translation elongation and affect the quality of the newly synthesized protein. Ribosome pausing emerges as important factor contributing to the regulatory programs that ensure the quality of the proteome and integrate the cellular and environmental cues into regulatory circuits of the cell.
topic translation
ribosome pausing
tRNA
prokaryotes
cotranslational folding
translation efficiency
url https://www.frontiersin.org/articles/10.3389/fmicb.2020.619430/full
work_keys_str_mv AT ekaterinasamatova translationalcontrolbyribosomepausinginbacteriahowanonuniformpaceoftranslationaffectsproteinproductionandfolding
AT jandaberger translationalcontrolbyribosomepausinginbacteriahowanonuniformpaceoftranslationaffectsproteinproductionandfolding
AT marijaliutkute translationalcontrolbyribosomepausinginbacteriahowanonuniformpaceoftranslationaffectsproteinproductionandfolding
AT marinavrodnina translationalcontrolbyribosomepausinginbacteriahowanonuniformpaceoftranslationaffectsproteinproductionandfolding
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