Epigenomic map of human liver reveals principles of zonated morphogenic and metabolic control

Spatial mapping of genomic programs in tissue cells is an important step in the understanding of organ function and disease. Here, the authors provide a spatially resolved epigenomic and transcriptomic map of human liver and show porto-central gradients in metabolic and morphogen networks and transc...

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Autores principales: Mario Brosch, Kathrin Kattler, Alexander Herrmann, Witigo von Schönfels, Karl Nordström, Daniel Seehofer, Georg Damm, Thomas Becker, Sebastian Zeissig, Sophie Nehring, Fabian Reichel, Vincent Moser, Raghavan Veera Thangapandi, Felix Stickel, Gustavo Baretton, Christoph Röcken, Michael Muders, Madlen Matz-Soja, Michael Krawczak, Gilles Gasparoni, Hella Hartmann, Andreas Dahl, Clemens Schafmayer, Jörn Walter, Jochen Hampe
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Lenguaje:EN
Publicado: Nature Portfolio 2018
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Acceso en línea:https://doaj.org/article/4dd3544c50324379ae45d9951935389b
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spelling oai:doaj.org-article:4dd3544c50324379ae45d9951935389b2021-12-02T17:31:16ZEpigenomic map of human liver reveals principles of zonated morphogenic and metabolic control10.1038/s41467-018-06611-52041-1723https://doaj.org/article/4dd3544c50324379ae45d9951935389b2018-10-01T00:00:00Zhttps://doi.org/10.1038/s41467-018-06611-5https://doaj.org/toc/2041-1723Spatial mapping of genomic programs in tissue cells is an important step in the understanding of organ function and disease. Here, the authors provide a spatially resolved epigenomic and transcriptomic map of human liver and show porto-central gradients in metabolic and morphogen networks and transcription factor binding sites as a basis to better understand liver regeneration and function.Mario BroschKathrin KattlerAlexander HerrmannWitigo von SchönfelsKarl NordströmDaniel SeehoferGeorg DammThomas BeckerSebastian ZeissigSophie NehringFabian ReichelVincent MoserRaghavan Veera ThangapandiFelix StickelGustavo BarettonChristoph RöckenMichael MudersMadlen Matz-SojaMichael KrawczakGilles GasparoniHella HartmannAndreas DahlClemens SchafmayerJörn WalterJochen HampeNature PortfolioarticleScienceQENNature Communications, Vol 9, Iss 1, Pp 1-11 (2018)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Mario Brosch
Kathrin Kattler
Alexander Herrmann
Witigo von Schönfels
Karl Nordström
Daniel Seehofer
Georg Damm
Thomas Becker
Sebastian Zeissig
Sophie Nehring
Fabian Reichel
Vincent Moser
Raghavan Veera Thangapandi
Felix Stickel
Gustavo Baretton
Christoph Röcken
Michael Muders
Madlen Matz-Soja
Michael Krawczak
Gilles Gasparoni
Hella Hartmann
Andreas Dahl
Clemens Schafmayer
Jörn Walter
Jochen Hampe
Epigenomic map of human liver reveals principles of zonated morphogenic and metabolic control
description Spatial mapping of genomic programs in tissue cells is an important step in the understanding of organ function and disease. Here, the authors provide a spatially resolved epigenomic and transcriptomic map of human liver and show porto-central gradients in metabolic and morphogen networks and transcription factor binding sites as a basis to better understand liver regeneration and function.
format article
author Mario Brosch
Kathrin Kattler
Alexander Herrmann
Witigo von Schönfels
Karl Nordström
Daniel Seehofer
Georg Damm
Thomas Becker
Sebastian Zeissig
Sophie Nehring
Fabian Reichel
Vincent Moser
Raghavan Veera Thangapandi
Felix Stickel
Gustavo Baretton
Christoph Röcken
Michael Muders
Madlen Matz-Soja
Michael Krawczak
Gilles Gasparoni
Hella Hartmann
Andreas Dahl
Clemens Schafmayer
Jörn Walter
Jochen Hampe
author_facet Mario Brosch
Kathrin Kattler
Alexander Herrmann
Witigo von Schönfels
Karl Nordström
Daniel Seehofer
Georg Damm
Thomas Becker
Sebastian Zeissig
Sophie Nehring
Fabian Reichel
Vincent Moser
Raghavan Veera Thangapandi
Felix Stickel
Gustavo Baretton
Christoph Röcken
Michael Muders
Madlen Matz-Soja
Michael Krawczak
Gilles Gasparoni
Hella Hartmann
Andreas Dahl
Clemens Schafmayer
Jörn Walter
Jochen Hampe
author_sort Mario Brosch
title Epigenomic map of human liver reveals principles of zonated morphogenic and metabolic control
title_short Epigenomic map of human liver reveals principles of zonated morphogenic and metabolic control
title_full Epigenomic map of human liver reveals principles of zonated morphogenic and metabolic control
title_fullStr Epigenomic map of human liver reveals principles of zonated morphogenic and metabolic control
title_full_unstemmed Epigenomic map of human liver reveals principles of zonated morphogenic and metabolic control
title_sort epigenomic map of human liver reveals principles of zonated morphogenic and metabolic control
publisher Nature Portfolio
publishDate 2018
url https://doaj.org/article/4dd3544c50324379ae45d9951935389b
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