Literature DB >> 30671673

Leveraging linkage evidence to identify low-frequency and rare variants on 16p13 associated with blood pressure using TOPMed whole genome sequencing data.

Karen Y He1, Xiaoyin Li1, Tanika N Kelly2, Jingjing Liang1, Brian E Cade3,4, Themistocles L Assimes5, Lewis C Becker6, Amber L Beitelshees7, Adam P Bress8, Yen-Pei Christy Chang7, Yii-Der Ida Chen9, Paul S de Vries10, Ervin R Fox11, Nora Franceschini12, Anna Furniss13, Yan Gao14, Xiuqing Guo9, Jeffrey Haessler15, Shih-Jen Hwang16, Marguerite Ryan Irvin17, Rita R Kalyani18, Ching-Ti Liu16, Chunyu Liu16, Lisa Warsinger Martin19, May E Montasser7, Paul M Muntner17, Stanford Mwasongwe20, Walter Palmas21, Alex P Reiner22, Daichi Shimbo21, Jennifer A Smith23, Beverly M Snively24, Lisa R Yanek25, Eric Boerwinkle10,26, Adolfo Correa13, L Adrienne Cupples16, Jiang He2, Sharon L R Kardia23, Charles Kooperberg15, Rasika A Mathias27, Braxton D Mitchell7,28, Bruce M Psaty29,30, Ramachandran S Vasan16, D C Rao31, Stephen S Rich32, Jerome I Rotter9, James G Wilson14, Aravinda Chakravarti33, Alanna C Morrison10, Daniel Levy16,34, Donna K Arnett35, Susan Redline3,4,36, Xiaofeng Zhu37.   

Abstract

In this study, we investigated low-frequency and rare variants associated with blood pressure (BP) by focusing on a linkage region on chromosome 16p13. We used whole genome sequencing (WGS) data obtained through the NHLBI Trans-Omics for Precision Medicine (TOPMed) program on 395 Cleveland Family Study (CFS) European Americans (CFS-EA). By analyzing functional coding variants and non-coding rare variants with CADD score > 10 residing within the chromosomal region in families with linkage evidence, we observed 25 genes with nominal statistical evidence (burden or SKAT p < 0.05). One of the genes is RBFOX1, an evolutionarily conserved RNA-binding protein that regulates tissue-specific alternative splicing that we previously reported to be associated with BP using exome array data in CFS. After follow-up analysis of the 25 genes in ten independent TOPMed studies with individuals of European, African, and East Asian ancestry, and Hispanics (N = 29,988), we identified variants in SLX4 (p = 2.19 × 10-4) to be significantly associated with BP traits when accounting for multiple testing. We also replicated the associations previously reported for RBFOX1 (p = 0.007). Follow-up analysis with GTEx eQTL data shows SLX4 variants are associated with gene expression in coronary artery, multiple brain tissues, and right atrial appendage of the heart. Our study demonstrates that linkage analysis of family data can provide an efficient approach for detecting rare variants associated with complex traits in WGS data.

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Year:  2019        PMID: 30671673      PMCID: PMC6404531          DOI: 10.1007/s00439-019-01975-0

Source DB:  PubMed          Journal:  Hum Genet        ISSN: 0340-6717            Impact factor:   4.132


  36 in total

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