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CAMOS 是一种非进行性、常染色体隐性、先天性小脑共济失调,由突变的锌指蛋白 ZNF592 引起。

CAMOS, a nonprogressive, autosomal recessive, congenital cerebellar ataxia, is caused by a mutant zinc-finger protein, ZNF592.

机构信息

Faculté de Médecine de la Timone, INSERM UMR_S 910, Génétique Médicale et Génomique Fonctionnelle, Université de la Méditerranée, Marseille, France.

出版信息

Eur J Hum Genet. 2010 Oct;18(10):1107-13. doi: 10.1038/ejhg.2010.82. Epub 2010 Jun 9.

DOI:10.1038/ejhg.2010.82
PMID:20531441
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2987462/
Abstract

CAMOS (Cerebellar Ataxia with Mental retardation, Optic atrophy and Skin abnormalities) is a rare autosomal recessive syndrome characterized by a nonprogressive congenital cerebellar ataxia associated with mental retardation, optic atrophy, and skin abnormalities. Using homozygosity mapping in a large inbred Lebanese Druze family, we previously reported the mapping of the disease gene at chromosome 15q24-q26 to a 3.6-cM interval between markers D15S206 and D15S199. Screening of candidate genes lying in this region led to the identification of a homozygous p.Gly1046Arg missense mutation in ZNF592, in all five affected individuals of the family. ZNF592 encodes a 1267-amino-acid zinc-finger (ZnF) protein, and the mutation, located within the eleventh ZnF, is predicted to affect the DNA-binding properties of ZNF592. Although the precise role of ZNF592 remains to be determined, our results suggest that ZNF592 is implicated in a complex developmental pathway, and that the mutation is likely to disturb the highly orchestrated regulation of genes during cerebellar development, by either disrupting interactions with target DNA or with a partner protein.

摘要

CAMOS(小脑性共济失调伴智力低下、视神经萎缩和皮肤异常)是一种罕见的常染色体隐性综合征,其特征为非进行性先天性小脑共济失调,伴有智力低下、视神经萎缩和皮肤异常。我们之前在一个大型近亲黎巴嫩德鲁兹家族中使用纯合子作图,报道了疾病基因定位于 15q24-q26 染色体,位于标记物 D15S206 和 D15S199 之间 3.6cM 的区间内。对该区域内候选基因的筛选导致在该家族的所有 5 个受影响个体中鉴定出 ZNF592 中的纯合 p.Gly1046Arg 错义突变。ZNF592 编码一个 1267 个氨基酸的锌指(ZnF)蛋白,该突变位于第 11 个 ZnF 内,预计会影响 ZNF592 的 DNA 结合特性。尽管 ZNF592 的确切作用仍有待确定,但我们的结果表明,ZNF592 参与了一个复杂的发育途径,该突变可能通过破坏与靶 DNA 或与伴侣蛋白的相互作用,干扰小脑发育过程中基因的高度协调调控。

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