Transient Hoogsteen Base Pairs Observed in Unbiased Molecular Dynamics Simulations of DNA.

Duplex DNA is modeled as canonical B-DNA displaying the characteristic Watson-Crick base pairs. A less common and short-lived pairing of the nucleobases is the Hoogsteen (HG) conformation. The low population of the HG base pairs (<1%) necessitates extended sampling times in order to analyze through unbiased molecular dynamics (MD) simulations. We have discovered that with extended sampling times using multiple independent copies of an 18-mer sequence, the MD trajectories reproduce the expected and transient HG base pairing. Consistent with experiment, the percentage of the HG events are within the range of ∼0.1-1.0% over the combined aggregate sampling time of more than 3.6 ms. We present the reliability of the current AMBER set of nucleic acid force fields and tools to accurately simulate naturally occurring base-pairing and opening events without any bias or restraints. The mechanism consists of base pair fraying, flipping of the purine, and reformation with HG base pairs.