由于过早终止密码子导致的纯合子遗传性C3缺乏症。

Homozygous hereditary C3 deficiency due to a premature stop codon.

作者信息

Da Silva Reis Edimara, Baracho Gisele Vanessa, Sousa Lima Adriana, Farah Chuck S, Isaac Lourdes

机构信息

Departamento de Imunologia, Instituto de Ciências Biomédicas, Universidade de São Paulo, Brazil.

出版信息

J Clin Immunol. 2002 Nov;22(6):321-30. doi: 10.1023/a:1020665614139.

DOI:10.1023/a:1020665614139

PMID:12462331

Abstract

C3 deficiency in humans is a rare disorder characterized by severe recurrent infections. We identified the mutations responsible for a complete homozygous C3 deficiency. Sequencing of the proband C3 cDNA (5067 bp) revealed the following alterations: (a) a silent G-->A transition at nucleotide 972; (b) a T-->C substitution at nucleotide 1001 resulting in a L314P transition; and (c) a stop codon in exon 13 caused by a G-->A substitution at position 1716. The presence of the same premature termination codon was confirmed in approximately half the clones obtained from the proband's paternal and maternal genomic DNAs. Finally, the proband produced approximately 20-fold less C3 mRNA than the normal control. Therefore, in addition to the fact that no functional protein will be synthesized in the deficient cells, this nonsense mutation may be associated with the low C3 mRNA levels.

摘要

人类C3缺乏症是一种罕见的疾病，其特征为严重的反复感染。我们鉴定出了导致完全纯合性C3缺乏的突变。对先证者的C3 cDNA（5067 bp）进行测序，发现了以下改变：（a）核苷酸972处发生沉默的G→A转换；（b）核苷酸1001处发生T→C替换，导致L314P转换；（c）第13外显子中的一个终止密码子，由第1716位的G→A替换引起。从先证者的父本和母本基因组DNA获得的约一半克隆中，证实了相同的过早终止密码子的存在。最后，先证者产生的C3 mRNA比正常对照少约20倍。因此，除了在缺陷细胞中不会合成功能性蛋白质这一事实外，这种无义突变可能与C3 mRNA水平低有关。

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由于过早终止密码子导致的纯合子遗传性C3缺乏症。

Homozygous hereditary C3 deficiency due to a premature stop codon.

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