Genome-wide association study identifies multiple susceptibility loci for craniofacial microsomia

被引:0
作者
Yong-Biao Zhang
Jintian Hu
Jiao Zhang
Xu Zhou
Xin Li
Chaohao Gu
Tun Liu
Yangchun Xie
Jiqiang Liu
Mingliang Gu
Panpan Wang
Tingting Wu
Jin Qian
Yue Wang
Xiaoqun Dong
Jun Yu
Qingguo Zhang
机构
[1] Chinese Academy of Sciences and Key Laboratory of Genome Science and Information,Department of Ear Reconstruction
[2] Beijing Institute of Genomics,Department of Anatomy and Cell Biology
[3] Chinese Academy of Sciences,Department of Cardiology
[4] Plastic Surgery Hospital,Department of Internal Medicine
[5] Chinese Academy of Medical Sciences,undefined
[6] Brody School of Medicine,undefined
[7] East Carolina University,undefined
[8] Beijing Anzhen Hospital of the Capital University of Medical Sciences,undefined
[9] Beijing KPS biotechnology,undefined
[10] College of Medicine,undefined
[11] The University of Oklahoma Health Sciences Center,undefined
来源
Nature Communications | / 7卷
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摘要
Craniofacial microsomia (CFM) is a rare congenital anomaly that involves immature derivatives from the first and second pharyngeal arches. The genetic pathogenesis of CFM is still unclear. Here we interrogate 0.9 million genetic variants in 939 CFM cases and 2,012 controls from China. After genotyping of an additional 443 cases and 1,669 controls, we identify 8 significantly associated loci with the most significant SNP rs13089920 (logistic regression P=2.15 × 10−120) and 5 suggestive loci. The above 13 associated loci, harboured by candidates of ROBO1, GATA3, GBX2, FGF3, NRP2, EDNRB, SHROOM3, SEMA7A, PLCD3, KLF12 and EPAS1, are found to be enriched for genes involved in neural crest cell (NCC) development and vasculogenesis. We then perform whole-genome sequencing on 21 samples from the case cohort, and identify several novel loss-of-function mutations within the associated loci. Our results provide new insights into genetic background of craniofacial microsomia.
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