遗传学
外显子
眼白化病
复合杂合度
生物
内含子
基因
桑格测序
移码突变
分子生物学
错义突变
等位基因
突变
作者
Shuhan Si,Xueyuan Jia,Lidan Xu,Qian Qin,Jie Wu,Wei Ji,Kai Dong,Xuelong Zhang,Lin Cao,Hao Wang,Lan Peng,Rongrong Wang,Jing Bai,Songbin Fu,Yun Huang,Wenjing Sun
摘要
Oculocutaneous albinism (OCA) is a genetically heterogeneous disease and is most inherited in an autosomal recessive manner. The characteristic manifestation of OCA is due to disfunction of melanin synthesis. OCA1 is the most severe subtype of OCA and is caused by homozygous or compound heterozygous variants in tyrosinase (TYR) gene, which is the key gene for melanin synthesis. This study aimed to identify the genetic variants of a northern Chinese family with OCA1. Clinical information and peripheral blood samples were collected. PCR amplification and Sanger sequencing were used to detect the entire exons and adjacent flanking sequences of TYR gene. Functional prediction of variants was performed by various bioinformatic analyses, while the pathogenicity classification of variants was evaluated according to ACMG standards and guidelines. A missense variant NM_000372.5:c.107G > C;NP_000363.1:p.C36S was discovered in TYR gene which converted cysteine to serine. Another variant in intron, NM_000372.5:c.1037-7 T > A, also affected the function of TYR gene. We verified the pathogenicity of the intron variant with a pCAS2 mini-gene based splicing assay and found that c.1037-7 T > A led to an insertion of 5 bp upstream from the common acceptor site of exon 3, which caused a frameshift TYR:c.1037-7 T > A:p.G346Efs*11. The results showed that the compound heterozygous variants c.107G > C:p.C36S and c.1037-7 T > A:p.G346Efs*11 of TYR gene were the pathogenic variants for this OCA1 family.
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