导致肌张力障碍的扭转蛋白A突变的分子缺陷

Molecular defects of the dystonia-causing torsinA mutation.

作者信息

Pham Phuong, Frei Karen P, Woo William, Truong Daniel D

机构信息

Parkinson's and Movement Disorder Institute, Long Beach Memorial Medical Center, Long Beach, California 90806, USA.

出版信息

Neuroreport. 2006 Nov 6;17(16):1725-8. doi: 10.1097/WNR.0b013e3280101220.

DOI:10.1097/WNR.0b013e3280101220

PMID:17047461

Abstract

The DeltaGAG deletion mutation in DYT1, causing a loss of a glutamic acid near the carboxyl terminus of torsinA protein (torsinADeltaE), is dominantly inherited and tends to result in a severe generalized form of dystonia with childhood onset. We have used a yeast two-hybrid interaction assay to examine torsinA and its mutant torsinADeltaE interactions. Our data showed that torsinA monomers are capable of interacting with themselves and that mutant torsinADeltaE fails to interact with itself or with torsinA. We also demonstrated that purified torsinA protein is an ATPase, which forms a multimeric complex in vitro and that the DeltaGAG mutation disrupts the formation of multimeric complex and decreases torsinA's ATPase activity.

摘要

DYT1基因中的DeltaGAG缺失突变导致torsinA蛋白羧基末端附近的谷氨酸缺失（torsinADeltaE），呈显性遗传，往往会导致儿童期起病的严重全身性肌张力障碍。我们利用酵母双杂交相互作用试验检测torsinA及其突变体torsinADeltaE的相互作用。我们的数据表明，torsinA单体能够自身相互作用，而突变体torsinADeltaE无法与自身或torsinA相互作用。我们还证明，纯化的torsinA蛋白是一种ATP酶，在体外形成多聚体复合物，DeltaGAG突变会破坏多聚体复合物的形成并降低torsinA的ATP酶活性。

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导致肌张力障碍的扭转蛋白A突变的分子缺陷

Molecular defects of the dystonia-causing torsinA mutation.

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