The history and geographic distribution of a KCNQ1 atrial fibrillation risk allele

The history and geographic distribution of a KCNQ1 atrial fibrillation risk allele

Many rare high-impact variants have been associated with disease, but the origins and functional impact are not always explored. Here, the authors trace the ancestry of a rare high impact atrial fibrillation allele in KCNQ1, and use iPSC-derived cardiomyocytes to characterize the effect of the allel...

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Autores principales: Shannon Hateley, Angelica Lopez-Izquierdo, Chuanchau J. Jou, Scott Cho, Joshua G. Schraiber, Shiya Song, Colin T. Maguire, Natalia Torres, Michael Riedel, Neil E. Bowles, Cammon B. Arrington, Brett J. Kennedy, Susan P. Etheridge, Shuping Lai, Chase Pribble, Lindsay Meyers, Derek Lundahl, Jake Byrnes, Julie M. Granka, Christopher A. Kauffman, Gordon Lemmon, Steven Boyden, W. Scott Watkins, Mary Anne Karren, Stacey Knight, J. Brent Muhlestein, John F. Carlquist, Jeffrey L. Anderson, Kenneth G. Chahine, Khushi U. Shah, Catherine A. Ball, Ivor J. Benjamin, Mark Yandell, Martin Tristani-Firouzi
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2021
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Science
Q
Acceso en línea:https://doaj.org/article/fc7dba9c47974f5aa229e04e2b3a9d14
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Sumario:Many rare high-impact variants have been associated with disease, but the origins and functional impact are not always explored. Here, the authors trace the ancestry of a rare high impact atrial fibrillation allele in KCNQ1, and use iPSC-derived cardiomyocytes to characterize the effect of the allele.

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