Paper Citing NAMD - Abstract
Bhattacharya, Swati; Derrington, Ian M.; Pavlenok, Mikhail; Niederweis, Michael; Gundlach, Jens H.; Aksimentiev, Aleksei
Molecular Dynamics Study of MspA Arginine Mutants Predicts Slow DNA Translocations and Ion Current Blockades Indicative of DNA Sequence
ACS NANO, 6:6960-6968, AUG 2012
The protein nanopore Myco bacteria smegmatis porin A (MspA), can be used to sense individual nucleotides within DNA, potentially enabling a technique known as nanopore sequencing. In this technique, single-stranded DNA electrophoretically moves through the nanopore and results in an ionic current that is nucleotide-specific. However, with a high transport velocity of the DNA within the nanopore, the ionic current cannot be used to distinguish signals within noise. Through extensive (similar to 100 mu s in total) all-atom molecular dynamics simulations, we examine the effect of positively charged residues on DNA translocation rate and the ionic current blockades in MspA. Simulation of several arginine mutations show a similar to 10-30 fold reduction of DNA translocation speed without eliminating the nucleotide induced current blockages. Comparison of our results with similar engineering efforts on a different nanopore (alpha-hemolysin) reveals a nontrivial effect of nanopore geometry on the ionic current blockades in mutant nanopores.
