School of Systems Biology, George Mason University , Manassas, Virginia 20110, United States.
J Phys Chem B. 2013 Oct 10;117(40):12030-8. doi: 10.1021/jp407705j. Epub 2013 Sep 25.
Using all-atom explicit solvent model and exhaustive replica exchange molecular dynamics simulations we studied the conformational ensembles of several amino-truncated Aβ peptides. In our simulations we specifically monitored the formation of helix structure in the C-terminals of various Aβ fragments. We show that the equilibrium distributions of structures adopted by Aβ23-40 and Aβ10-40 are similar, but sharply distinct from the conformational ensemble of Aβ29-40. The latter features a stable helical structure not present in longer fragments. Because the λ-expansion method applied to Aβ23-40 identified Lys28 as the residue producing the strongest impact on the C-terminal helix structure, we hypothesized that addition of a single Lys28 to Aβ29-40 would change the peptide's conformational ensemble. REMD simulations of Aβ28-40 confirmed this expectation by showing that in this peptide the helix conformation is destabilized and it adopts structures similar to those of Aβ23-40 and Aβ10-40. Therefore, a major conformational switch in the Aβ C-terminal occurs by truncating Aβ peptide after the position Lys28. By comparing our findings with previous studies we argue that Aβ C-terminal harbors helical propensity, which can be revealed by various factors, including environment, ligand binding, or sequence truncation.
我们使用全原子显式溶剂模型和详尽的副本交换分子动力学模拟研究了几种氨基酸截断的 Aβ 肽的构象集合。在模拟中,我们特别监测了各种 Aβ 片段的 C 末端形成螺旋结构的情况。我们表明,Aβ23-40 和 Aβ10-40 的结构平衡分布相似,但与 Aβ29-40 的构象集合明显不同。后者具有稳定的螺旋结构,而在较长的片段中不存在。由于 λ 扩展方法应用于 Aβ23-40 确定了 Lys28 是对 C 末端螺旋结构产生最强影响的残基,我们假设在 Aβ29-40 中添加单个 Lys28 会改变肽的构象集合。Aβ28-40 的 REMD 模拟证实了这一预期,表明在该肽中,螺旋构象被削弱,并且它采用与 Aβ23-40 和 Aβ10-40 相似的结构。因此,Aβ C 末端的主要构象转换是通过在 Lys28 之后截断 Aβ 肽发生的。通过将我们的发现与以前的研究进行比较,我们认为 Aβ C 末端具有螺旋倾向,这可以通过各种因素来揭示,包括环境、配体结合或序列截断。
