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Abstract
Host-guest binding is
a challenging problem in computer simulation. The prediction of binding
affinities between hosts and guests is an important part of the statistical
assessment of the modeling of proteins and ligands (SAMPL) challenges. In this
work, the volume-based variant of well-tempered metadynamics is employed to
calculate the binding affinities of the host-guest systems in the SAMPL6
challenge. By biasing the spherical coordinates describing the relative
position of the host and the guest, the initial-configuration-induced bias
vanishes and all possible binding poses are explored. The agreement between the
predictions and the experimental results and the observation of new binding
poses indicate that the volume-based technique serves as a nice candidate for
the calculation of binding free energies and the search of the binding poses.
