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由编码线粒体延伸因子GUF1的进化保守基因中的纯合变异引起的韦斯特综合征。

West syndrome caused by homozygous variant in the evolutionary conserved gene encoding the mitochondrial elongation factor GUF1.

作者信息

Alfaiz Ali Abdullah, Müller Verena, Boutry-Kryza Nadia, Ville Dorothée, Guex Nicolas, de Bellescize Julitta, Rivier Clotilde, Labalme Audrey, des Portes Vincent, Edery Patrick, Till Marianne, Xenarios Ioannis, Sanlaville Damien, Herrmann Johannes M, Lesca Gaétan, Reymond Alexandre

机构信息

Center for Integrative Genomics, University of Lausanne, Lausanne, Switzerland.

Swiss Institute of Bioinformatics (SIB), Lausanne, Switzerland.

出版信息

Eur J Hum Genet. 2016 Jul;24(7):1001-8. doi: 10.1038/ejhg.2015.227. Epub 2015 Oct 21.

DOI:10.1038/ejhg.2015.227
PMID:26486472
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5070883/
Abstract

West syndrome (WS), defined by the triad of infantile spasms, pathognomonic hypsarrhythmia and developmental regression, is a rare epileptic disease affecting about 1:3500 live births. To get better insights on the genetic of this pathology, we exome-sequenced the members of a consanguineous family affected with isolated WS. We identified a homozygous variant (c.1825G>T/p.(Ala609Ser)) in the GUF1 gene in the three affected siblings. GUF1 encodes a protein essential in conditions that counteract faithful protein synthesis: it is able to remobilize stuck ribosomes and transiently inhibit the elongation process to optimize protein synthesis. The variant identified in the WS family changes an alanine residue conserved in all eukaryotic organisms and positioned within the tRNA-binding moiety of this nuclear genome-encoded mitochondrial translational elongation factor. Yeast complementation assays show that the activity of GUF1(A609S) is modified in suboptimal environments. We suggest a new link between improper assembly of respiratory chain complexes and WS.

摘要

韦斯特综合征(WS)以婴儿痉挛、特征性高峰失律和发育倒退三联征为特征,是一种罕见的癫痫疾病,发病率约为1:3500活产儿。为了更深入了解这种疾病的遗传学特征,我们对一个患有孤立性WS的近亲家庭的成员进行了外显子组测序。我们在三名患病的兄弟姐妹中发现了GUF1基因的一个纯合变异(c.1825G>T/p.(Ala609Ser))。GUF1编码一种在保证蛋白质合成准确性的条件下必不可少的蛋白质:它能够重新移动卡住的核糖体并暂时抑制延伸过程以优化蛋白质合成。在WS家族中鉴定出的变异改变了所有真核生物中保守的一个丙氨酸残基,该残基位于这个核基因组编码的线粒体翻译延伸因子的tRNA结合部分内。酵母互补试验表明,在次优环境中,GUF1(A609S)的活性发生了改变。我们提出呼吸链复合物组装不当与WS之间存在新的联系。

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