Adhesion to nanofibers drives cell membrane remodeling through one-dimensional wetting

Adhesion to nanofibers drives cell membrane remodeling through one-dimensional wetting

Meningococci remodel the plasma membrane of host cells during infection. Here, Charles-Orszag et al. show that plasma membrane remodeling occurs independently of F-actin, along meningococcal type IV pili fibers, by a physical mechanism that they term ‘one-dimensional’ membrane wetting.

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Autores principales: Arthur Charles-Orszag, Feng-Ching Tsai, Daria Bonazzi, Valeria Manriquez, Martin Sachse, Adeline Mallet, Audrey Salles, Keira Melican, Ralitza Staneva, Aurélie Bertin, Corinne Millien, Sylvie Goussard, Pierre Lafaye, Spencer Shorte, Matthieu Piel, Jacomine Krijnse-Locker, Françoise Brochard-Wyart, Patricia Bassereau, Guillaume Duménil
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2018
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Q
Acceso en línea:https://doaj.org/article/a3ee3d2a3841419284f54580f2ed54ad
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spelling oai:doaj.org-article:a3ee3d2a3841419284f54580f2ed54ad2021-12-02T16:49:24ZAdhesion to nanofibers drives cell membrane remodeling through one-dimensional wetting10.1038/s41467-018-06948-x2041-1723https://doaj.org/article/a3ee3d2a3841419284f54580f2ed54ad2018-10-01T00:00:00Zhttps://doi.org/10.1038/s41467-018-06948-xhttps://doaj.org/toc/2041-1723Meningococci remodel the plasma membrane of host cells during infection. Here, Charles-Orszag et al. show that plasma membrane remodeling occurs independently of F-actin, along meningococcal type IV pili fibers, by a physical mechanism that they term ‘one-dimensional’ membrane wetting.Arthur Charles-OrszagFeng-Ching TsaiDaria BonazziValeria ManriquezMartin SachseAdeline MalletAudrey SallesKeira MelicanRalitza StanevaAurélie BertinCorinne MillienSylvie GoussardPierre LafayeSpencer ShorteMatthieu PielJacomine Krijnse-LockerFrançoise Brochard-WyartPatricia BassereauGuillaume DuménilNature PortfolioarticleScienceQENNature Communications, Vol 9, Iss 1, Pp 1-14 (2018)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Arthur Charles-Orszag
Feng-Ching Tsai
Daria Bonazzi
Valeria Manriquez
Martin Sachse
Adeline Mallet
Audrey Salles
Keira Melican
Ralitza Staneva
Aurélie Bertin
Corinne Millien
Sylvie Goussard
Pierre Lafaye
Spencer Shorte
Matthieu Piel
Jacomine Krijnse-Locker
Françoise Brochard-Wyart
Patricia Bassereau
Guillaume Duménil
Adhesion to nanofibers drives cell membrane remodeling through one-dimensional wetting
description Meningococci remodel the plasma membrane of host cells during infection. Here, Charles-Orszag et al. show that plasma membrane remodeling occurs independently of F-actin, along meningococcal type IV pili fibers, by a physical mechanism that they term ‘one-dimensional’ membrane wetting.
format article
author Arthur Charles-Orszag
Feng-Ching Tsai
Daria Bonazzi
Valeria Manriquez
Martin Sachse
Adeline Mallet
Audrey Salles
Keira Melican
Ralitza Staneva
Aurélie Bertin
Corinne Millien
Sylvie Goussard
Pierre Lafaye
Spencer Shorte
Matthieu Piel
Jacomine Krijnse-Locker
Françoise Brochard-Wyart
Patricia Bassereau
Guillaume Duménil
author_facet Arthur Charles-Orszag
Feng-Ching Tsai
Daria Bonazzi
Valeria Manriquez
Martin Sachse
Adeline Mallet
Audrey Salles
Keira Melican
Ralitza Staneva
Aurélie Bertin
Corinne Millien
Sylvie Goussard
Pierre Lafaye
Spencer Shorte
Matthieu Piel
Jacomine Krijnse-Locker
Françoise Brochard-Wyart
Patricia Bassereau
Guillaume Duménil
author_sort Arthur Charles-Orszag
title Adhesion to nanofibers drives cell membrane remodeling through one-dimensional wetting
title_short Adhesion to nanofibers drives cell membrane remodeling through one-dimensional wetting
title_full Adhesion to nanofibers drives cell membrane remodeling through one-dimensional wetting
title_fullStr Adhesion to nanofibers drives cell membrane remodeling through one-dimensional wetting
title_full_unstemmed Adhesion to nanofibers drives cell membrane remodeling through one-dimensional wetting
title_sort adhesion to nanofibers drives cell membrane remodeling through one-dimensional wetting
publisher Nature Portfolio
publishDate 2018
url https://doaj.org/article/a3ee3d2a3841419284f54580f2ed54ad
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