posted on 2020-02-24, 22:03authored byLorenzo Di Rienzo, Edoardo Milanetti, Josephine Alba, Marco D’Abramo
In this work, we
describe the application of the Zernike formalism
to quantitatively characterize the binding pockets of two sets of
biologically relevant systems. Such an approach, when applied to molecular
dynamics trajectories, is able to pinpoint the subtle differences
between very similar molecular regions and their impact on the local
propensity to ligand binding, allowing us to quantify such differences.
The statistical robustness of our procedure suggests that it is very
suitable to describe protein binding sites and protein–ligand
interactions within a rigorous and well-defined framework.