Proteomics reveals signal peptide features determining the client specificity in human TRAP-dependent ER protein import

Proteomics reveals signal peptide features determining the client specificity in human TRAP-dependent ER protein import

While Sec61 enables ER import of all polypeptides with N-terminal signal peptides, only selected clients are accepted for TRAP-assisted ER import. Here, the authors use a proteomics approach to characterize TRAP-dependent clients, identifying signal peptide features that govern recognition by TRAP.

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Autores principales: Duy Nguyen, Regine Stutz, Stefan Schorr, Sven Lang, Stefan Pfeffer, Hudson H. Freeze, Friedrich Förster, Volkhard Helms, Johanna Dudek, Richard Zimmermann
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2018
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Acceso en línea:https://doaj.org/article/ccdad44d8b644ceabe5c045b8a8b8350
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spelling oai:doaj.org-article:ccdad44d8b644ceabe5c045b8a8b83502021-12-02T14:38:52ZProteomics reveals signal peptide features determining the client specificity in human TRAP-dependent ER protein import10.1038/s41467-018-06188-z2041-1723https://doaj.org/article/ccdad44d8b644ceabe5c045b8a8b83502018-09-01T00:00:00Zhttps://doi.org/10.1038/s41467-018-06188-zhttps://doaj.org/toc/2041-1723While Sec61 enables ER import of all polypeptides with N-terminal signal peptides, only selected clients are accepted for TRAP-assisted ER import. Here, the authors use a proteomics approach to characterize TRAP-dependent clients, identifying signal peptide features that govern recognition by TRAP.Duy NguyenRegine StutzStefan SchorrSven LangStefan PfefferHudson H. FreezeFriedrich FörsterVolkhard HelmsJohanna DudekRichard ZimmermannNature PortfolioarticleScienceQENNature Communications, Vol 9, Iss 1, Pp 1-15 (2018)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Duy Nguyen
Regine Stutz
Stefan Schorr
Sven Lang
Stefan Pfeffer
Hudson H. Freeze
Friedrich Förster
Volkhard Helms
Johanna Dudek
Richard Zimmermann
Proteomics reveals signal peptide features determining the client specificity in human TRAP-dependent ER protein import
description While Sec61 enables ER import of all polypeptides with N-terminal signal peptides, only selected clients are accepted for TRAP-assisted ER import. Here, the authors use a proteomics approach to characterize TRAP-dependent clients, identifying signal peptide features that govern recognition by TRAP.
format article
author Duy Nguyen
Regine Stutz
Stefan Schorr
Sven Lang
Stefan Pfeffer
Hudson H. Freeze
Friedrich Förster
Volkhard Helms
Johanna Dudek
Richard Zimmermann
author_facet Duy Nguyen
Regine Stutz
Stefan Schorr
Sven Lang
Stefan Pfeffer
Hudson H. Freeze
Friedrich Förster
Volkhard Helms
Johanna Dudek
Richard Zimmermann
author_sort Duy Nguyen
title Proteomics reveals signal peptide features determining the client specificity in human TRAP-dependent ER protein import
title_short Proteomics reveals signal peptide features determining the client specificity in human TRAP-dependent ER protein import
title_full Proteomics reveals signal peptide features determining the client specificity in human TRAP-dependent ER protein import
title_fullStr Proteomics reveals signal peptide features determining the client specificity in human TRAP-dependent ER protein import
title_full_unstemmed Proteomics reveals signal peptide features determining the client specificity in human TRAP-dependent ER protein import
title_sort proteomics reveals signal peptide features determining the client specificity in human trap-dependent er protein import
publisher Nature Portfolio
publishDate 2018
url https://doaj.org/article/ccdad44d8b644ceabe5c045b8a8b8350
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AT reginestutz proteomicsrevealssignalpeptidefeaturesdeterminingtheclientspecificityinhumantrapdependenterproteinimport
AT stefanschorr proteomicsrevealssignalpeptidefeaturesdeterminingtheclientspecificityinhumantrapdependenterproteinimport
AT svenlang proteomicsrevealssignalpeptidefeaturesdeterminingtheclientspecificityinhumantrapdependenterproteinimport
AT stefanpfeffer proteomicsrevealssignalpeptidefeaturesdeterminingtheclientspecificityinhumantrapdependenterproteinimport
AT hudsonhfreeze proteomicsrevealssignalpeptidefeaturesdeterminingtheclientspecificityinhumantrapdependenterproteinimport
AT friedrichforster proteomicsrevealssignalpeptidefeaturesdeterminingtheclientspecificityinhumantrapdependenterproteinimport
AT volkhardhelms proteomicsrevealssignalpeptidefeaturesdeterminingtheclientspecificityinhumantrapdependenterproteinimport
AT johannadudek proteomicsrevealssignalpeptidefeaturesdeterminingtheclientspecificityinhumantrapdependenterproteinimport
AT richardzimmermann proteomicsrevealssignalpeptidefeaturesdeterminingtheclientspecificityinhumantrapdependenterproteinimport
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