2017
DOI: 10.1021/acs.jctc.7b00068
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Polarizable Force Field for DNA Based on the Classical Drude Oscillator: II. Microsecond Molecular Dynamics Simulations of Duplex DNA

Abstract: The structure and dynamics of DNA are governed by a sensitive balance between base stacking and pairing, hydration, and interactions with ions. Force field models that include explicit representations of electronic polarization are capable of more accurately modeling the subtle details of these interactions versus commonly used additive force fields. In this work, we validate our recently refined polarizable force field for DNA based on the classical Drude oscillator model, in which electronic degrees of freed… Show more

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Cited by 81 publications
(147 citation statements)
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“…Corresponding molecular mechanical (MM) calculations were performed using the Drude‐2017 force field in the CHARMM program . All MM calculations were performed analogously to the corresponding QM calculations; that is, any fixed degrees of freedom during QM optimizations were similarly restrained in CHARMM to ensure a direct comparison between the results.…”
Section: Methodsmentioning
confidence: 99%
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“…Corresponding molecular mechanical (MM) calculations were performed using the Drude‐2017 force field in the CHARMM program . All MM calculations were performed analogously to the corresponding QM calculations; that is, any fixed degrees of freedom during QM optimizations were similarly restrained in CHARMM to ensure a direct comparison between the results.…”
Section: Methodsmentioning
confidence: 99%
“…All of the atom types used to describe uracil in the Drude force field are shared by cytosine and thymine, which were refined in our previous work on DNA . The electrostatic parameters derived by Baker et al for uracil were applied in conjunction with the refined LJ parameters of the Drude‐2017 atom types and evaluated in CHARMM by enforcing the intermolecular restraints described above via the LONEPAIR facility.…”
Section: Methodsmentioning
confidence: 99%
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“…We evaluated protein (ubiquitin, PDB 1UBQ) 35 , DNA (Dickerson-Drew dodecamer, EcoRI, PDB 1BNA), 36 and 1 M MgCl 2 systems, all taken from previous studies. 25,37,38 Each system was solvated in SWM4-NDP water 39 and the EcoRI system included ~100 mM NaCl. The differences between forces computed by the two programs were evaluated for each atom in the systems using the relative errors defined by the L2 norm between its (x,y,z) component: e=i=x,y,z(FiOpenMM-FiCHARMMFiCHARMM)2…”
Section: Validation and Benchmarking Simulationsmentioning
confidence: 99%