2006
DOI: 10.1063/1.2208608
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Calculation of the entropy and free energy of peptides by molecular dynamics simulations using the hypothetical scanning molecular dynamics method

Abstract: Hypothetical scanning (HS) is a method for calculating the absolute entropy S and free energy F from a sample generated by any simulation technique. With this approach each sample configuration is reconstructed with the help of transition probabilities (TPs) and their product leads to the configuration's probability, hence to the entropy. Recently a new way for calculating the TPs by Monte Carlo (MC) simulations has been suggested, where all system interactions are taken into account. Therefore, this method--c… Show more

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Cited by 34 publications
(89 citation statements)
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“…However, this good LS result might be accidental as unreliable differences were obtained by LS for the extended, helix, and hairpin microstates of decaglycine. 53,55 The similar results obtained for unit ) 2.5 and 10 ps suggest that already for unit )2.5 (n f )500) the coverage of both microstates by the future chains is adequate and that for unit ) 10 and n f ) 8000 the future chains still remain within these microstates. To get an idea about the extent of this coverage, we selected a structure from each of the two studied samples from which MD simulations of the entire loop were started (see the last paragraph of section II.6).…”
Section: Iii4 Entropy Differences In Vacuumsupporting
confidence: 67%
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“…However, this good LS result might be accidental as unreliable differences were obtained by LS for the extended, helix, and hairpin microstates of decaglycine. 53,55 The similar results obtained for unit ) 2.5 and 10 ps suggest that already for unit )2.5 (n f )500) the coverage of both microstates by the future chains is adequate and that for unit ) 10 and n f ) 8000 the future chains still remain within these microstates. To get an idea about the extent of this coverage, we selected a structure from each of the two studied samples from which MD simulations of the entire loop were started (see the last paragraph of section II.6).…”
Section: Iii4 Entropy Differences In Vacuumsupporting
confidence: 67%
“…However, if S m A -S n A is found to be stable for significantly improving approximations, the constant value can be considered to be the correct difference. Indeed, in the previous application of HSMD to peptides 55 and in the present study of a loop (see section III), relatively small values of n′ f and j have already led to stable differences, meaning that systematic errors in both S m A and S n A are comparable and thus are cancelled in S m A -S n A . This cancellation of relatively large systematic errors (discussed further below) makes HSMD an efficient procedure for peptides/ loops.…”
Section: Ii7 Upper Bound and Exact Expressions For The Free Energymentioning
confidence: 51%
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