Paper Citing NAMD - Abstract
Stachiewicz, Anna; Molski, Andrzej
A Coarse-Grained MARTINI-Like Force Field for DNA Unzipping in Nanopores
JOURNAL OF COMPUTATIONAL CHEMISTRY, 36:947-956, MAY 15 2015
In nanopore force spectroscopy (NFS) a charged polymer is threaded through a channel of molecular dimensions. When an electric field is applied across the insulating membrane, the ionic current through the nanopore reports on polymer translocation, unzipping, dissociation, and so forth. We present a new model that can be applied in molecular dynamics simulations of NFS. Although simplified, it does reproduce experimental trends and all-atom simulations. The scaled conductivities in bulk solution are consistent with experimental results for NaCl for a wide range of electrolyte concentrations and temperatures. The dependence of the ionic current through a nanopore on the applied voltage is symmetric and, in the voltage range used in experiments (up to 2 V), linear and in good agreement with experimental data. The thermal stability and geometry of DNA is well represented. The model was applied to simulations of DNA hairpin unzipping in nanopores. The results are in good agreement with all-atom simulations: the scaled translocation times and unzipping sequence are similar. (c) 2015 Wiley Periodicals, Inc.
