Fatemeh Fateminasab, Mohammad Aarabi, Aurelien de La Lande, Reza Omidyan. J. Mol. Liquids. 2021, 344, 117961. doi.org/10.1016/j.molliq.2021.117961.

In the present study, we have employed a high-level density functional theory (DFT) model to investigate both implicit and explicit effects of solvation (i.e., the bulk solvation effect as well as microhydration) in addition to the effect of distal Histidine on the binding of CO to Ferrous and Ferric-Heme. It has been predicted that the distal N-methylimidazole (MI) in addition to microsolvation, as a simple mode of environment, leads to a significant stabilization on the binding of CO to Heme-Fe^II (by ∼ 4 kcal mol⁻¹). This is while no clear alteration has been predicted for the implicit solvation model. For the Ferric heme, and in contrast to the Ferrous system, strong destabilization from the environment has been predicted for binding CO to the Ferric heme analog.