分子孔和通道样腔的三维亲脂性表征

Gustavo A. Arteca, David R. Van Allen
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引用次数: 4

摘要

在计算机辅助药物设计的背景下,分子亲脂性是评估分子相似性或互补性的有用性质。此外,局部对溶剂亲和力的贡献有助于我们理解生物分子的动力学和构象稳定性。在这项工作中,我们讨论了一种方法,通过使用分子通道样腔的一维和二维表示来表征局部对疏水性的贡献。该方法监测现象亲脂性势(基于碎片原子贡献)如何在用于模拟通道和孔隙的“分子管”连续体上变化。我们的研究结果提供了一个相对详细的水亲和性空间分布的图像。然后,该程序可以用作基于单个氨基酸平均贡献的疏水性尺度的补充。此外,我们还可以研究孔隙内外区亲水性的变化。作为一种应用,我们计算了革兰西菌素a“孔隙构象”中的亲脂性的三维分布。我们的结果表明的定性趋势与计算机模拟的水合离子存在下的革兰西菌素通道大致一致。模拟所揭示的行为可以被整合到一个改进的、简单的二维水渠相互作用模型中。
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Three-dimensional lipophilicity characterization of molecular pores and channel-like cavities

Molecular lipophilicity is a useful property for assessing molecular similarity or complementarity within the context of computer-aided drug design. As well, local contributions to solvent affinity help us to understand both dynamics and conformational stability in biomolecules. In this work, we discuss an approach to characterize the local contributions to hydrophobicity by using one- and two-dimensional representations of molecular channel-like cavities. The method monitors how a phenomenological lipophilicity potential (based on fragmental atom contributions) changes over a continuum of “molecular tubes” used for modeling channels and pores. Our results convey a relatively detailed picture of the spatial distribution of water affinity. The procedure can then be used as a complement to the hydrophobicity scales based on averaging contributions from single amino acids. In addition, we can study how the water affinity changes for inner and outer regious of the pores. As an application, we compute the 3D distribution of lipophilicity in the “pore conformation” of gramicidin A. The qualitative trends indicated by our results are broadly consistent with computer simulations of the gramicidin channel in the presence of hydrated ions. The behavior revealed by the simulations can then be incorporated to produce an improved, simple 2D model for water-channel interactions.

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