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Potential Fluctuation Equality for Free Energy Evaluation

Biological Physics 2011-05-24 v3 Statistical Mechanics Chemical Physics Computational Physics

Abstract

Jarzynski's equality [1] allows us to investigate free energy landscapes (FELs) by constructing distributions of work performed on a system from an initial ensemble of states to final states. This work is experimentally measured by extension-versus-force (EVF) curves. We proposed a new approach that enables us to reconstruct such FELs without necessity of measuring EVF curves. We proved that any free energy changes could be computed by measuring the fluctuations of a harmonic external potential in final states. The main assumption of our proof is that one should probably treat a potential's minimum {\lambda} (thought to be control parameter) and time in separate and independent manners. We recovered Jarzynski's equality from the introduction of a double Heaviside function. We then applied the approach in molecular dynamics (MD) simulations to compute the free energy barrier of breaking DNA base pairs (bps). The free energy barrier for breaking a CG bp in our simulations is identified as 1.7 +/- 0.2 kcal/mol that is in a very beautiful agreement with experimental values [2-4] of about 1.9 to 2.1 kcal/mol. Interestingly, the history of our computed free energies probably represents a favorable transition pathway.

Keywords

Cite

@article{arxiv.1103.1173,
  title  = {Potential Fluctuation Equality for Free Energy Evaluation},
  author = {Van Ngo},
  journal= {arXiv preprint arXiv:1103.1173},
  year   = {2011}
}

Comments

5 main pages, 3 main figures, 10 pages for additional information. The DNA system is not appropriate for testing the theorem. A standardized system of a deca-alanine is chosen for further tests. The theorem is further developed and tested in another submitted paper

R2 v1 2026-06-21T17:35:49.241Z