人拉福林的二聚体四级结构。

Dimeric quaternary structure of human laforin.

作者信息

Sankhala Rajeshwer S, Koksal Adem C, Ho Lan, Nitschke Felix, Minassian Berge A, Cingolani Gino

机构信息

From the Department of Biochemistry and Molecular Biology, Thomas Jefferson University, Philadelphia, Pennsylvania 19107.

the Department of Biological Chemistry and Molecular Pharmacology, Harvard Medical School, Boston, Massachusetts 02115.

出版信息

J Biol Chem. 2015 Feb 20;290(8):4552-4559. doi: 10.1074/jbc.M114.627406. Epub 2014 Dec 23.

DOI:10.1074/jbc.M114.627406

PMID:25538239

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4335197/

Abstract

The phosphatase laforin removes phosphate groups from glycogen during biosynthetic activity. Loss-of-function mutations in the gene encoding laforin is the predominant cause of Lafora disease, a fatal form of progressive myoclonic epilepsy. Here, we used hybrid structural methods to determine the molecular architecture of human laforin. We found that laforin adopts a dimeric quaternary structure, topologically similar to the prototypical dual specificity phosphatase VH1. The interface between the laforin carbohydrate-binding module and the dual specificity phosphatase domain generates an intimate substrate-binding crevice that allows for recognition and dephosphorylation of phosphomonoesters of glucose. We identify novel molecular determinants in the laforin active site that help decipher the mechanism of glucan phosphatase activity.

摘要

磷酸酶拉福林在生物合成活动期间从糖原中去除磷酸基团。编码拉福林的基因中的功能丧失突变是拉福拉病的主要病因，拉福拉病是一种致命的进行性肌阵挛性癫痫形式。在此，我们使用混合结构方法来确定人拉福林的分子结构。我们发现拉福林采用二聚体四级结构，在拓扑结构上类似于典型的双特异性磷酸酶VH1。拉福林碳水化合物结合模块与双特异性磷酸酶结构域之间的界面产生了一个紧密的底物结合裂隙，允许对葡萄糖磷酸单酯进行识别和去磷酸化。我们在拉福林活性位点鉴定了新的分子决定因素，这有助于解释葡聚糖磷酸酶活性的机制。

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