基于氢键拓扑的反平行β-折叠中β-发夹结构的密度泛函理论研究:一种新的分类方法。
Density functional theory study of β-hairpins in antiparallel β-sheets, a new classification based upon H-bond topology.
机构信息
Department of Chemistry, Hunter College and Graduate School, City University of New York, New York 10065, United States.
出版信息
Biochemistry. 2012 Jul 10;51(27):5387-93. doi: 10.1021/bi3006785. Epub 2012 Jun 27.
Abstract
We present a new classification of β-turns specific to antiparallel β-sheets based upon the topology of H-bond formation. This classification results from ONIOM calculations using B3LYP/D95** density functional theory and AM1 semiempirical calculations as the high and low levels, respectively. We chose acetyl(Ala)(6)NH(2) as a model system as it is the simplest all-alanine system that can form all the H-bonds required for a β-turn in a sheet. Of the 10 different conformations we have found, the most stable structures have C(7) cyclic H-bonds in place of the C(10) interactions specified in the classic definition. Also, the chiralities specified for residues i + 1 and i + 2 in the classic definition disappear when the structures are optimized using our techniques, as the energetic differences among the four diastereomers of each structure are not substantial for 8 of the 10 conformations.
摘要
我们提出了一种新的基于氢键形成拓扑的反平行β-折叠β-转角分类。这种分类是通过使用 ONIOM 计算得到的,其中 B3LYP/D95**密度泛函理论和 AM1 半经验计算分别作为高精度和低精度级别。我们选择乙酰(Ala)(6)NH(2)作为模型体系,因为它是最简单的全丙氨酸体系,可以形成一个β-折叠中所有所需的氢键。在我们发现的 10 种不同构象中,最稳定的结构具有 C(7)环状氢键,而不是经典定义中指定的 C(10)相互作用。此外,当使用我们的技术对结构进行优化时,经典定义中指定的残基 i + 1 和 i + 2 的手性消失,因为对于 10 种构象中的 8 种,每个结构的四个非对映异构体之间的能量差异不大。
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