In this paper, terahertz (THz) spectra of four DNA nucleosides (Adenosine, Thymidine, Cytidine and Guanosine) and two nucleoside derivatives (Ribavirin and Entecavir, first time reported) in the solid phase were studied experimentally by Fourier Transform Infrared Spectroscopy (FTIR) in the frequency of 1-10 THz. The lattice energy, geometric structure, vibration spectrum of them were analyzed theoretically by the generalized energy-based fragmentation approach under periodic boundary conditions (denoted as PBC-GEBF) and the density functional theory (DFT). The intra- and inter-molecular weak interactions corresponding to the vibrational modes of the crystal, polymer and monomer were obtained, with the help of the potential energy distribution (PED) and reduced density gradient (RDG) methods. It was found that the sum of electronic and thermal free energies increased from the monomer to polymer, and from the polymer to crystal. For example, the inter-molecular interaction energy from the monomer to dimer of adenosine increased 6.969 kcal/mol, and that from the dimer to crystal (the periodic boundary conditions were considered) increased 666.792 kcal/mol. Therefore, only the crystal structure constrained the periodic boundary conditions could well describe the experimental results, although the former scholars chose the monomer or polymer as the initial configuration due to the limitation of computing resources and methods. In THz band, the vibrational modes were generally originated from the collective vibration (more than 99% of them were vibration, only less than 1% of them were rotation and translation) of all molecules involved, which could reflect the molecular structure and spatial distribution of different substances. In order to accurately identify the spectra, we studied the location, type and contribution of all weak interactions, and found that the strong characteristic peaks corresponding to the strong hydrogen bonds came from inter-molecular, while the weak hydrogen bonds mainly originated from intra- and inter-molecular, the out-of-plane bending made the largest contribution, accounting for more than 90%. Furthermore, taking guanine, guanosine and two guanosine derivatives (Ribavirin and Entecavir) as examples, the differences of weak interaction among them caused by different molecular configuration, arrangement and substituent position were studied, and the fundamental reason of THz spectrum change was found. This research can lay a foundation for crystal engineering, supramolecular chemistry, molecular recognition and self-assembly, protein-ligand interaction, etc.
Keywords: FTIR; Nucleoside derivatives; Nucleosides; PBC-GEBF; Weak interaction.
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