DNAH14 variants are associated with neurodevelopmental disorders

错义突变 生物 移码突变 外显子组测序 遗传学 胡说 复合杂合度 张力减退 小头畸形 表型 等位基因 外显子组 次等位基因频率 基因 生物信息学 等位基因频率
作者
Juan Li,Yu Yuan,Chaorong Liu,Yuchen Xu,Neng Xiao,Hongyu Long,Zhaohui Luo,Shujuan Meng,Hua Wang,Bo Xiao,Xiao Mao,Lili Long
出处
期刊:Human Mutation [Wiley]
卷期号:43 (7): 940-949 被引量:19
标识
DOI:10.1002/humu.24386
摘要

Neurodevelopmental disorders (NDD) are complex and multifaceted diseases involving genetic and environmental sciences. Rapid developments in sequencing techniques have made it possible to identify new disease-causing genes. Our study aimed to identify novel genes associated with NDDs. Trio whole-exome sequencing was performed to evaluate potential NDD variants. We identified three unrelated patients with compound heterozygous DNAH14 variants. The detailed clinical information and genetic results of the recruited patients were obtained and systematically reviewed. Three compound heterozygous DNAH14 variants were identified as follows: c.6100C > T(p.Arg2034Ter) and c.5167A > G(p.Arg1723Gly), c.12640_12641delAA(p.Lys4214Valfs*7) and c.4811T > A(p.Leu1604Gln), andc.7615C > A(p.Pro2539Thr) and c.11578G > A(p.Gly3860Ser), including one nonsense, one frameshift, and four missense variants, which were not existent or with low minor allele frequencies based on the gnomAD database. The missense variants were assumed to be damaging or probably damaging by using multiple bioinformatics tools. Four of these variants were located in the AAA+ ATPase domain, while two were located in the C-terminal domain. Most affected amino acids were highly conserved in various species. A spectrum of neurological and developmental phenotypes was observed, including seizures, global developmental delay, microcephaly, and hypotonia. Thus, our findings indicate that variants of DNAH14 could lead to previously unrecognized NDDs.
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