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Literature DB >> 24793288

Whole exome sequencing of distant relatives in multiplex families implicates rare variants in candidate genes for oral clefts.

Alexandre Bureau¹, Margaret M Parker², Ingo Ruczinski³, Margaret A Taub³, Mary L Marazita⁴, Jeffrey C Murray⁵, Elisabeth Mangold⁶, Markus M Noethen⁶, Kirsten U Ludwig⁶, Jacqueline B Hetmanski², Joan E Bailey-Wilson⁷, Cheryl D Cropp⁷, Qing Li⁷, Silke Szymczak⁷, Hasan Albacha-Hejazi⁸, Khalid Alqosayer⁹, L Leigh Field¹⁰, Yah-Huei Wu-Chou¹¹, Kimberly F Doheny¹², Hua Ling¹², Alan F Scott¹³, Terri H Beaty¹⁴.

Abstract

A dozen genes/regions have been confirmed as genetic risk factors for oral clefts in human association and linkage studies, and animal models argue even more genes may be involved. Genomic sequencing studies should identify specific causal variants and may reveal additional genes as influencing risk to oral clefts, which have a complex and heterogeneous etiology. We conducted a whole exome sequencing (WES) study to search for potentially causal variants using affected relatives drawn from multiplex cleft families. Two or three affected second, third, and higher degree relatives from 55 multiplex families were sequenced. We examined rare single nucleotide variants (SNVs) shared by affected relatives in 348 recognized candidate genes. Exact probabilities that affected relatives would share these rare variants were calculated, given pedigree structures, and corrected for the number of variants tested. Five novel and potentially damaging SNVs shared by affected distant relatives were found and confirmed by Sanger sequencing. One damaging SNV in CDH1, shared by three affected second cousins from a single family, attained statistical significance (P = 0.02 after correcting for multiple tests). Family-based designs such as the one used in this WES study offer important advantages for identifying genes likely to be causing complex and heterogeneous disorders.

Entities: Disease Gene Species

Keywords: oral clefts; pedigree studies; rare variants; whole exome sequencing

Mesh：

Substances：

Year: 2014 PMID： 24793288 PMCID： PMC4096358 DOI： 10.1534/genetics.114.165225

Source DB: PubMed Journal: Genetics ISSN： 0016-6731 Impact factor: 4.562

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