10.6084/m9.figshare.5035736.v1 M. Alcolea Palafox M. Alcolea Palafox V.K. Rastogi V.K. Rastogi S.P. Singh S.P. Singh Effect of the sulphur atom on geometry and spectra of the biomolecule 2-thiouracil and in the WC base pair 2-thiouridine-adenosine. Influence of water in the first hydration shell Taylor & Francis Group 2017 2-thiouracil interaction energies DFT Raman IR hydration scaling wavenumbers 2-thiouridine uridine 2017-05-24 10:45:28 Journal contribution https://tandf.figshare.com/articles/journal_contribution/Effect_of_the_sulphur_atom_on_geometry_and_spectra_of_the_biomolecule_2-thiouracil_and_in_the_WC_base_pair_2-thiouridine-adenosine_Influence_of_water_in_the_first_hydration_shell/5035736 <p>The effect of the sulphur atom on 2-thiouracil (2TU) and 2-thiouridine molecules, as compared with uracil and uridine molecules, respectively, was carried out in several environments. The predicted IR spectrum of 2TU in the isolated state was compared with that obtained for uracil molecule and with those reported experimentally in matrix isolation. Its crystal unit cell in the solid state was simulated through a tetramer form using DFT methods for the first time. The calculated Raman spectrum was compared to the experimental ones in the solid state. A linear scaling procedure was used for this task. The first hydration shell was simulated by explicit number of water molecules surrounding 2TU up to 30 and was compared with that obtained in uracil molecule. Water molecules ‘distributed’ around 2TU was preferred over that ‘clustering’, because it can better reproduce the hydration and their effects on different parameters of the molecular structure of 2TU and uracil. The total atomic charges and several calculated thermodynamic parameters were discussed. The effect of the sulphur atom on the Watson-Crick (WC) and reverse WC base pair uridine-adenosine was estimated, and the CP corrected interaction energies were calculated. 2-thiouridine has a weaker WC pair than that with uridine, although its slight higher dipole moment (<i>μ</i>) facilitates the interaction with the water molecules. Several helical parameters were determined.</p>