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W1970881303 abstract "Free energy calculations on three model processes with theoretically known free energy changes have been performed using short simulation times. A comparison between equilibrium (thermodynamic integration) and non-equilibrium (fast growth) methods has been made in order to assess the accuracy and precision of these methods. The three processes have been chosen to represent processes often observed in biomolecular free energy calculations. They involve a redistribution of charges, the creation and annihilation of neutral particles and conformational changes. At very short overall simulation times, the thermodynamic integration approach using discrete steps is most accurate. More importantly, reasonable accuracy can be obtained using this method which seems independent of the overall simulation time. In cases where slow conformational changes play a role, fast growth simulations might have an advantage over discrete thermodynamic integration where sufficient sampling needs to be obtained at every λ-point, but only if the initial conformations do properly represent an equilibrium ensemble. From these three test cases practical lessons can be learned that will be applicable to biomolecular free energy calculations." @default.
W1970881303 created "2016-06-24" @default.
W1970881303 creator A5050713464 @default.
W1970881303 creator A5063856246 @default.
W1970881303 date "2006-03-01" @default.
W1970881303 modified "2023-10-16" @default.
W1970881303 title "Calculating zeros: Non-equilibrium free energy calculations" @default.
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W1970881303 doi "https://doi.org/10.1016/j.chemphys.2005.08.054" @default.
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