Improved Peptide and Protein Torsional Energetics with the OPLS-AA Force Field
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Abstract
The development and validation of new peptide dihedral parameters are reported for the OPLS-AA force field. High accuracy quantum chemical methods were used to scan φ, ψ, χ1, and χ2 potential energy surfaces for blocked dipeptides. New Fourier coefficients for the dihedral angle terms of the OPLS-AA force field were fit to these surfaces, utilizing a Boltzmann-weighted error function and systematically examining the effects of weighting temperature. To prevent overfitting to the available data, a minimal number of new residue-specific and peptide-specific torsion terms were developed. Extensive experimental solution-phase and quantum chemical gas-phase benchmarks were used to assess the quality of the new…
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860
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- 100%
- References
- 52
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Authors
3Topics & keywords
Topics
Keywords
- Dihedral angle
- Force field (fiction)
- OPLS
- Ramachandran plot
- Chemistry
- Torsion (gastropod)
- Fourier transform
- Computational chemistry
UN Sustainable Development Goals
- Affordable and clean energy
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