AI Article Synopsis
- The predictions of the derivative of electrostatic binding free energy with respect to salt concentration are comparable when using the Poisson-Boltzmann equation and the simpler Debye-Hückel equation due to the dominance of long-range electrostatic interactions.
- A simplified charge model based on the Debye-Hückel equation can effectively predict electrostatic binding behavior, showing strong correlation with both Poisson-Boltzmann predictions and experimental data.
- The DHE model clarifies why there's a lack of correlation between certain electrostatic metrics and binding energies in cases with dielectric discontinuities, raising concerns about the reliability of using empirical correlations in analyzing binding free energies.
Article Abstract
The predictions of the derivative of the electrostatic binding free energy of a biomolecular complex, ΔG(el), with respect to the logarithm of the 1:1 salt concentration, d(ΔG(el))/d(ln[NaCl]), SK, by the Poisson-Boltzmann equation, PBE, are very similar to those of the simpler Debye-Hückel equation, DHE, because the terms in the PBE's predictions of SK that depend on the details of the dielectric interface are small compared to the contributions from long-range electrostatic interactions. These facts allow one to obtain predictions of SK using a simplified charge model along with the DHE that are highly correlated with both the PBE and experimental binding data. The DHE-based model developed here, which was derived from the generalized Born model, explains the lack of correlation between SK and ΔG(el) in the presence of a dielectric discontinuity, which conflicts with the popular use of this supposed correlation to parse experimental binding free energies into electrostatic and nonelectrostatic components. Moreover, the DHE model also provides a clear justification for the correlations between SK and various empirical quantities, like the number of ion pairs, the ligand charge on the interface, the Coulomb binding free energy, and the product of the charges on the complex's components, but these correlations are weak, questioning their usefulness.
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| http://dx.doi.org/10.1016/j.bpc.2011.02.010 | DOI Listing |
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