Structural and Computational Biology and Molecular Biophysics Program, Baylor College of Medicine, Houston, Texas 77030, USA.
J Comput Chem. 2011 Apr 15;32(5):878-85. doi: 10.1002/jcc.21668. Epub 2010 Oct 12.
Electrostatic free energies of solvation for 15 neutral amino acid side chain analogs are computed. We compare three methods of varying computational complexity and accuracy for three force fields: free energy simulations, Poisson-Boltzmann (PB), and linear response approximation (LRA) using AMBER, CHARMM, and OPLS-AA force fields. We find that deviations from simulation start at low charges for solutes. The approximate PB and LRA produce an overestimation of electrostatic solvation free energies for most of molecules studied here. These deviations are remarkably systematic. The variations among force fields are almost as large as the variations found among methods. Our study confirms that success of the approximate methods for electrostatic solvation free energies comes from their ability to evaluate free energy differences accurately.
计算了 15 种中性氨基酸侧链类似物的溶剂化静电自由能。我们比较了三种方法,它们的计算复杂度和准确性不同,适用于三种力场:使用 AMBER、CHARMM 和 OPLS-AA 力场的自由能模拟、泊松-玻尔兹曼(PB)和线性响应近似(LRA)。我们发现,对于溶质来说,从低电荷开始,模拟就会出现偏差。近似的 PB 和 LRA 对这里研究的大多数分子的静电溶剂化自由能产生了过高的估计。这些偏差非常系统。力场之间的变化几乎与方法之间的变化一样大。我们的研究证实,近似方法在静电溶剂化自由能方面的成功来自于它们准确评估自由能差的能力。