Calculation of Solvation Free-Energy Differences for Large Solute Change from Computer Simulations with Quadrature-Based Nearly Linear Thermodynamic Integration |
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| Authors: | Mihaly Mezei |
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| Affiliation: | Department of Physiology and Biophysics , Mount Sinai School of Medicine , Cuny, New York, NY, 10029 |
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| Abstract: | Abstract The free-energy simulation methodology is reviewed from the point of view of calculating large free-energy differences. The advantages of the nearly linear thermodynamic integration based on Gaussian quadrature are highlighted and its performance is characterized on systems ranging from the Lennard-Jones fluid to the A to B transition of DNA oligomers. A technique for optimizing the runlength at each quadrature point is given. Examples for the sensitivity of the calculated free energy to the atomic charges used are also presented. |
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| Keywords: | Free-energy simulation thermodynamic integration polynomial path glycine alanine dipeptide DNA |
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