Emile de Bruyn, Anton Emil Dorn, Giulia Rossetti*, Claudio Fernandez, Tiago F. Outeiro, Jörg B. Schulz and Paolo Carloni,
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引用次数: 0
摘要
在帕金森病和其他突触核蛋白病的关键因素--人类α-突触核蛋白(AS)形成的病理内含物中,丝氨酸129会发生磷酸化。在这里,分子模拟让我们深入了解了磷酸化 AS 的结构组合。模拟结果表明,由于磷酸基团大部分被溶解,磷酸化对水溶液中生理性 AS 构象组合的结构内容产生了重大影响。AS的疏水区域含有β-发夹结构,这可能会增加该蛋白质形成淀粉样蛋白的倾向,正如最近的分子模拟研究在该蛋白质的非生理(非乙酰化)形式中看到的那样。我们的发现与现有的实验数据一致,但需要注意的是,力场对磷酸化分子的作用存在局限性。
Impact of Phosphorylation on the Physiological Form of Human alpha-Synuclein in Aqueous Solution
Serine 129 can be phosphorylated in pathological inclusions formed by the intrinsically disordered protein human α-synuclein (AS), a key player in Parkinson’s disease and other synucleinopathies. Here, molecular simulations provide insight into the structural ensemble of phosphorylated AS. The simulations allow us to suggest that phosphorylation significantly impacts the structural content of the physiological AS conformational ensemble in aqueous solution, as the phosphate group is mostly solvated. The hydrophobic region of AS contains β-hairpin structures, which may increase the propensity of the protein to undergo amyloid formation, as seen in the nonphysiological (nonacetylated) form of the protein in a recent molecular simulation study. Our findings are consistent with existing experimental data with the caveat of the observed limitations of the force field for the phosphorylated moiety.
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