The genetic regulatory signature of type 2 diabetes in human skeletal muscle

The genetic regulatory signature of type 2 diabetes in human skeletal muscle

More than 90% of genetic variants associated with type 2 diabetes occur in non-coding regions. Scott et al. report genomes, epigenomes and transcriptomes of skeletal muscle from 271 participants with a range of glucose tolerances, revealing a genetic regulatory architecture enriched in muscle stretc...

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Autores principales: Laura J. Scott, Michael R. Erdos, Jeroen R. Huyghe, Ryan P. Welch, Andrew T. Beck, Brooke N. Wolford, Peter S. Chines, John P. Didion, Narisu Narisu, Heather M. Stringham, D. Leland Taylor, Anne U. Jackson, Swarooparani Vadlamudi, Lori L. Bonnycastle, Leena Kinnunen, Jouko Saramies, Jouko Sundvall, Ricardo D'Oliveira Albanus, Anna Kiseleva, John Hensley, Gregory E. Crawford, Hui Jiang, Xiaoquan Wen, Richard M. Watanabe, Timo A. Lakka, Karen L. Mohlke, Markku Laakso, Jaakko Tuomilehto, Heikki A. Koistinen, Michael Boehnke, Francis S. Collins, Stephen C. J. Parker
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2016
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Science
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Acceso en línea:https://doaj.org/article/05b203e73f38446db6c6345b6a617738
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Sumario:More than 90% of genetic variants associated with type 2 diabetes occur in non-coding regions. Scott et al. report genomes, epigenomes and transcriptomes of skeletal muscle from 271 participants with a range of glucose tolerances, revealing a genetic regulatory architecture enriched in muscle stretch/super enhancers.

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