使用显溶剂模拟直接观察蛋白质-肽复合物中β-折叠构象的转变。
Direct observations of shifts in the β-sheet register of a protein-peptide complex using explicit solvent simulations.
机构信息
Department of Chemistry, University of Pittsburgh, Pittsburgh, Pennsylvania, USA.
出版信息
Biophys J. 2011 May 4;100(9):L50-2. doi: 10.1016/j.bpj.2011.03.035.
Abstract
Using explicit solvent molecular dynamics simulations, we were able to obtain direct observations of shifts in the hydrogen-bonding register of an intermolecular β-sheet protein-peptide complex. The β-sheet is formed between the FHA domain of cancer marker protein Ki67 (Ki67FHA) and a peptide fragment of the hNIFK signaling protein. Potential encounter complexes of the Ki67FHA receptor and hNIFK peptide are misregistered states of the β-sheet. Rearrangements of one of these misregistered states to the native state were captured in three independent simulations. All three rearrangements occurred by a common mechanism: an aromatic residue of the peptide (F263) anchors into a transient hydrophobic pocket of the receptor to facilitate the formation of native hydrogen bonds. To our knowledge, these simulations provide the first atomically detailed visualizations of a mechanism by which nature might correct for errors in the alignment of intermolecular β-sheets.
摘要
利用显式溶剂分子动力学模拟,我们能够直接观察到癌标志物蛋白 Ki67(Ki67FHA)的 FHA 结构域与 hNIFK 信号蛋白的肽段之间形成的分子间β-折叠构象的氢键结合位置的变化。β-折叠是由 FHA 结构域和 hNIFK 肽段形成的。Ki67FHA 受体和 hNIFK 肽的潜在相遇复合物是β-折叠的错误注册状态。在三个独立的模拟中捕获了其中一个错误注册状态到天然状态的重排。所有三种重排都通过一个共同的机制发生:肽的一个芳香族残基(F263)锚定到受体的瞬态疏水性口袋中,以促进天然氢键的形成。据我们所知,这些模拟提供了第一个原子细节的可视化,说明了自然界可能纠正分子间β-折叠排列错误的机制。
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