与帕金森病相关的野生型和家族性点突变 A53T 的 α-突触核蛋白的独特水合性质。
Distinct hydration properties of wild-type and familial point mutant A53T of α-synuclein associated with Parkinson's disease.
机构信息
Institute of Enzymology, Hungarian Academy of Sciences, Budapest, Hungary.
出版信息
Biophys J. 2011 Nov 2;101(9):2260-6. doi: 10.1016/j.bpj.2011.08.052. Epub 2011 Nov 1.
Abstract
The propensity of α-synuclein to form amyloid plays an important role in Parkinson's disease. Three familial mutations, A30P, E46K, and A53T, correlate with Parkinson's disease. Therefore, unraveling the structural effects of these mutations has basic implications in understanding the molecular basis of the disease. Here, we address this issue through comparing details of the hydration of wild-type α-synuclein and its A53T mutant by a combination of wide-line NMR, differential scanning calorimetry, and molecular dynamics simulations. All three approaches suggest a hydrate shell compatible with a largely disordered state of both proteins. Its fine details, however, are different, with the mutant displaying a somewhat higher level of hydration, suggesting a bias to more open structures, favorable for protein-protein interactions leading to amyloid formation. These differences disappear in the amyloid state, suggesting basically the same surface topology, irrespective of the initial monomeric state.
摘要
α-突触核蛋白形成淀粉样纤维的倾向在帕金森病中起着重要作用。三种家族性突变 A30P、E46K 和 A53T 与帕金森病相关。因此,揭示这些突变的结构影响对于理解疾病的分子基础具有重要意义。在这里,我们通过比较野生型 α-突触核蛋白及其 A53T 突变体的水合细节,结合宽线 NMR、差示扫描量热法和分子动力学模拟来解决这个问题。这三种方法都表明,两种蛋白质的水合壳都与无序状态相容。然而,其细节有所不同,突变体显示出更高水平的水合作用,表明更倾向于开放结构,有利于导致淀粉样纤维形成的蛋白质-蛋白质相互作用。这些差异在淀粉样状态下消失,表明无论初始单体状态如何,表面拓扑基本相同。
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