Massively parallel interrogation of protein fragment secretability using SECRiFY reveals features influencing secretory system transit

The exact protein features that control passage through the eukaryotic secretory system remain largely unknown. Here the authors report SECRiFY which they use to evaluate the secretory potential of polypeptides on a proteome-wide scale in yeast, revealing a role for flexibility and intrinsic disorde...

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Autores principales: Morgane Boone, Pathmanaban Ramasamy, Jasper Zuallaert, Robbin Bouwmeester, Berre Van Moer, Davy Maddelein, Demet Turan, Niels Hulstaert, Hannah Eeckhaut, Elien Vandermarliere, Lennart Martens, Sven Degroeve, Wim De Neve, Wim Vranken, Nico Callewaert
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Publicado: Nature Portfolio 2021
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Acceso en línea:https://doaj.org/article/043a1799d9594a9ab4b4cd01c3c5aabe
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spelling oai:doaj.org-article:043a1799d9594a9ab4b4cd01c3c5aabe2021-11-08T11:06:28ZMassively parallel interrogation of protein fragment secretability using SECRiFY reveals features influencing secretory system transit10.1038/s41467-021-26720-y2041-1723https://doaj.org/article/043a1799d9594a9ab4b4cd01c3c5aabe2021-11-01T00:00:00Zhttps://doi.org/10.1038/s41467-021-26720-yhttps://doaj.org/toc/2041-1723The exact protein features that control passage through the eukaryotic secretory system remain largely unknown. Here the authors report SECRiFY which they use to evaluate the secretory potential of polypeptides on a proteome-wide scale in yeast, revealing a role for flexibility and intrinsic disorder.Morgane BoonePathmanaban RamasamyJasper ZuallaertRobbin BouwmeesterBerre Van MoerDavy MaddeleinDemet TuranNiels HulstaertHannah EeckhautElien VandermarliereLennart MartensSven DegroeveWim De NeveWim VrankenNico CallewaertNature PortfolioarticleScienceQENNature Communications, Vol 12, Iss 1, Pp 1-16 (2021)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Morgane Boone
Pathmanaban Ramasamy
Jasper Zuallaert
Robbin Bouwmeester
Berre Van Moer
Davy Maddelein
Demet Turan
Niels Hulstaert
Hannah Eeckhaut
Elien Vandermarliere
Lennart Martens
Sven Degroeve
Wim De Neve
Wim Vranken
Nico Callewaert
Massively parallel interrogation of protein fragment secretability using SECRiFY reveals features influencing secretory system transit
description The exact protein features that control passage through the eukaryotic secretory system remain largely unknown. Here the authors report SECRiFY which they use to evaluate the secretory potential of polypeptides on a proteome-wide scale in yeast, revealing a role for flexibility and intrinsic disorder.
format article
author Morgane Boone
Pathmanaban Ramasamy
Jasper Zuallaert
Robbin Bouwmeester
Berre Van Moer
Davy Maddelein
Demet Turan
Niels Hulstaert
Hannah Eeckhaut
Elien Vandermarliere
Lennart Martens
Sven Degroeve
Wim De Neve
Wim Vranken
Nico Callewaert
author_facet Morgane Boone
Pathmanaban Ramasamy
Jasper Zuallaert
Robbin Bouwmeester
Berre Van Moer
Davy Maddelein
Demet Turan
Niels Hulstaert
Hannah Eeckhaut
Elien Vandermarliere
Lennart Martens
Sven Degroeve
Wim De Neve
Wim Vranken
Nico Callewaert
author_sort Morgane Boone
title Massively parallel interrogation of protein fragment secretability using SECRiFY reveals features influencing secretory system transit
title_short Massively parallel interrogation of protein fragment secretability using SECRiFY reveals features influencing secretory system transit
title_full Massively parallel interrogation of protein fragment secretability using SECRiFY reveals features influencing secretory system transit
title_fullStr Massively parallel interrogation of protein fragment secretability using SECRiFY reveals features influencing secretory system transit
title_full_unstemmed Massively parallel interrogation of protein fragment secretability using SECRiFY reveals features influencing secretory system transit
title_sort massively parallel interrogation of protein fragment secretability using secrify reveals features influencing secretory system transit
publisher Nature Portfolio
publishDate 2021
url https://doaj.org/article/043a1799d9594a9ab4b4cd01c3c5aabe
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