Pathologic gene network rewiring implicates PPP1R3A as a central regulator in pressure overload heart failure

The genetic and pathogenetic basis of heart failure is incompletely understood. Here, the authors present a high-fidelity tissue collection from rapidly preserved failing and non-failing control hearts which are used for eQTL mapping and network analysis, resulting in the prioritization of PPP1R3A a...

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Autores principales: Pablo Cordero, Victoria N. Parikh, Elizabeth T. Chin, Ayca Erbilgin, Michael J. Gloudemans, Ching Shang, Yong Huang, Alex C. Chang, Kevin S. Smith, Frederick Dewey, Kathia Zaleta, Michael Morley, Jeff Brandimarto, Nicole Glazer, Daryl Waggott, Aleksandra Pavlovic, Mingming Zhao, Christine S. Moravec, W. H. Wilson Tang, Jamie Skreen, Christine Malloy, Sridhar Hannenhalli, Hongzhe Li, Scott Ritter, Mingyao Li, Daniel Bernstein, Andrew Connolly, Hakon Hakonarson, Aldons J. Lusis, Kenneth B. Margulies, Anna A. Depaoli-Roach, Stephen B. Montgomery, Matthew T. Wheeler, Thomas Cappola, Euan A. Ashley
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2019
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Acceso en línea:https://doaj.org/article/2ca5a8edf42d48a4acecfce1aa70adac
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Sumario:The genetic and pathogenetic basis of heart failure is incompletely understood. Here, the authors present a high-fidelity tissue collection from rapidly preserved failing and non-failing control hearts which are used for eQTL mapping and network analysis, resulting in the prioritization of PPP1R3A as a heart failure gene.