Alessandra Gilda Ritacca, Mario Prejanò, Marta Erminia Alberto, Tiziana Marino, Marirosa Toscano, Nino Russo
Journal of computational chemistry 2024 Jun 05A DFT and TDDFT study has been carried out on monomeric anthraquinones Emodin and Dermocybin (Em, Derm) recently proposed as natural antibacterial photosensitizers able to act also against gram-negative microbes. The computational study has been performed considering the relative amount of neutral and ionic forms of each compound in water, with the variation of pH. The occurrence of both Type I and Type II photoreactions has been explored computing the absorption properties of each species, the spin-orbit coupling constants (SOC), the vertical ionization potentials and the vertical electron affinities. The most plausible deactivation channels leading to the population of excited triplet states have been proposed. Our data indicate Emodin as more active than Dermocybin in antimicrobial photodynamic therapy throughout the Type II mechanism. Our data support a dual TypeI/II activity of the monomeric anthraquinones Emodin and Dermccybin in water, in all the considered protonation states. © 2024 Wiley Periodicals LLC.
Alessandra Gilda Ritacca, Mario Prejanò, Marta Erminia Alberto, Tiziana Marino, Marirosa Toscano, Nino Russo. On the antibacterial photodynamic inactivation mechanism of Emodin and Dermocybin natural photosensitizers: A theoretical investigation. Journal of computational chemistry. 2024 Jun 05;45(15):1254-1260
PMID: 38351736
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