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Classical molecular dynamics is more and more often coupled to quantum mechanical based techniques as a statistical tool to sample configurations of molecular systems embedded in complex environments. Nonetheless, the classical potentials describing the molecular systems are seldom parametrized to reproduce electronic processes, such as electronic excitations, which are instead very sensitive to the underlining description of the molecular structure. Here, we analyze the challenging case of the peridinin molecule, a natural apocarotenoid responsible for the light-harvesting process in the PCP antenna protein of dinoflagellates. Ground-state structural and vibrational properties, as well as electronic transitions of the pigment are studied by means of quantum-mechanical static and dynamic calculations. Thereafter, classical molecular dynamics simulations are performed with a number of different force-fields …