Super-resolution microscopy reveals a preformed NEMO lattice structure that is collapsed in incontinentia pigmenti

NEMO is a member of the IKK complex that binds ubiquitin, involved in NF-κB signalling and proposed to form higher order structures. Here the authors use super-resolution microscopy to detect the presence of NEMO lattices in cells, that are modified by NF-κB treatment and abrogated by mutations affe...

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Autores principales: Janine Scholefield, Ricardo Henriques, Anca F. Savulescu, Elisabeth Fontan, Alix Boucharlat, Emmanuel Laplantine, Asma Smahi, Alain Israël, Fabrice Agou, Musa M. Mhlanga
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Publicado: Nature Portfolio 2016
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Acceso en línea:https://doaj.org/article/bf1e75c472b84f6aaf2453cc4cab9d72
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spelling oai:doaj.org-article:bf1e75c472b84f6aaf2453cc4cab9d722021-12-02T17:31:31ZSuper-resolution microscopy reveals a preformed NEMO lattice structure that is collapsed in incontinentia pigmenti10.1038/ncomms126292041-1723https://doaj.org/article/bf1e75c472b84f6aaf2453cc4cab9d722016-09-01T00:00:00Zhttps://doi.org/10.1038/ncomms12629https://doaj.org/toc/2041-1723NEMO is a member of the IKK complex that binds ubiquitin, involved in NF-κB signalling and proposed to form higher order structures. Here the authors use super-resolution microscopy to detect the presence of NEMO lattices in cells, that are modified by NF-κB treatment and abrogated by mutations affecting NEMO ubiquitin binding.Janine ScholefieldRicardo HenriquesAnca F. SavulescuElisabeth FontanAlix BoucharlatEmmanuel LaplantineAsma SmahiAlain IsraëlFabrice AgouMusa M. MhlangaNature PortfolioarticleScienceQENNature Communications, Vol 7, Iss 1, Pp 1-13 (2016)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Janine Scholefield
Ricardo Henriques
Anca F. Savulescu
Elisabeth Fontan
Alix Boucharlat
Emmanuel Laplantine
Asma Smahi
Alain Israël
Fabrice Agou
Musa M. Mhlanga
Super-resolution microscopy reveals a preformed NEMO lattice structure that is collapsed in incontinentia pigmenti
description NEMO is a member of the IKK complex that binds ubiquitin, involved in NF-κB signalling and proposed to form higher order structures. Here the authors use super-resolution microscopy to detect the presence of NEMO lattices in cells, that are modified by NF-κB treatment and abrogated by mutations affecting NEMO ubiquitin binding.
format article
author Janine Scholefield
Ricardo Henriques
Anca F. Savulescu
Elisabeth Fontan
Alix Boucharlat
Emmanuel Laplantine
Asma Smahi
Alain Israël
Fabrice Agou
Musa M. Mhlanga
author_facet Janine Scholefield
Ricardo Henriques
Anca F. Savulescu
Elisabeth Fontan
Alix Boucharlat
Emmanuel Laplantine
Asma Smahi
Alain Israël
Fabrice Agou
Musa M. Mhlanga
author_sort Janine Scholefield
title Super-resolution microscopy reveals a preformed NEMO lattice structure that is collapsed in incontinentia pigmenti
title_short Super-resolution microscopy reveals a preformed NEMO lattice structure that is collapsed in incontinentia pigmenti
title_full Super-resolution microscopy reveals a preformed NEMO lattice structure that is collapsed in incontinentia pigmenti
title_fullStr Super-resolution microscopy reveals a preformed NEMO lattice structure that is collapsed in incontinentia pigmenti
title_full_unstemmed Super-resolution microscopy reveals a preformed NEMO lattice structure that is collapsed in incontinentia pigmenti
title_sort super-resolution microscopy reveals a preformed nemo lattice structure that is collapsed in incontinentia pigmenti
publisher Nature Portfolio
publishDate 2016
url https://doaj.org/article/bf1e75c472b84f6aaf2453cc4cab9d72
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