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A combined study on structures and vibrational spectra of the antiviral rimantadine using SQMFF and DFT calculations

Maximiliano A. Iramain, José Ruiz Hidalgo, Tom Sundius, Silvia Antonia Brandán

2022Heliyon23 citationsDOIOpen Access PDF

Abstract

C-NMR and UV spectra of three species with the analogous experimental ones, suggesting probably, the presence of all them in both phases. The main force constants of three species have evidenced lower values than the corresponding to antiviral amantadine. The ionic character of N1-H33⋯Cl36 bond of HCl species in aqueous solution evidence positive Mulliken charge on N1 atom indicating that this species is as CA one. Rimantadine presents higher solvation energies in water than other antiviral species, such as chloroquin, niclosamide, cidofovir and brincidofovir. The FB and HCl species of rimantadine are slightly less reactive than the corresponding to amantadine while the opposite is observed for the CA species. The predicted ECD spectra for the FB and CA species show positive Cotton effect different from the negative observed for the HCl one. These different behaviours of three species of rimantadine could probably explain the differences observed in the intensities of bands predicted in the electronic spectra of these species.

Topics & Concepts

RimantadineSpectral lineComputational chemistryChemistryPhysicsVirologyMedicineInfluenza A virusQuantum mechanicsVirusNonlinear Optical Materials ResearchSynthesis and biological activityFree Radicals and Antioxidants
A combined study on structures and vibrational spectra of the antiviral rimantadine using SQMFF and DFT calculations | Litcius