分岔氢键能量用于蛋白质结构预测

Sajal Dash, J. Snoeyink
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引用次数: 0

摘要

虽然已知氢键形成合作网络,但大多数蛋白质结构预测方法仍然独立地模拟单个氢键以提高计算效率。我们正在开发识别和记录化学键网络的方法,但需要确定这些网络的能量。在本文中,我们执行量子计算来比较单个氢键的能量分布与那些最简单的依赖相互作用,分岔氢键。当有两个孤电子对可供一个受体和两个给体成键时,两个独立键和一个分叉键的能量差别很小,但是一个给体和两个受体成键就困难多了。这些结果表明孤对位置可能是氢键参数化比原子位置更好的基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
On the energy of bifurcated hydrogen bonds for protein structure prediction
Although hydrogen bonds are known to form cooperative networks, most protein structure prediction methods still model individual hydrogen bonds independently for computational efficiency. We are developing ways to identify and score networks of bonds, but need to determine the energies from such networks. In this paper we perform quantum calculations to compare energy profiles of individual hydrogen bonds to those of the simplest dependent interaction, bifurcated hydrogen bonds. When there are two lone pairs available for an acceptor to bond with two donors, then there is very little difference between the energies of two independent bonds and a bifurcated bond, but for one donor to bond to two acceptors is much harder. These results suggest that lone pair positions may be a better basis for hydrogen bond parameterization than atom positions.
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