Spectroscopic, Computational, Molecular Docking and Dynamics Simulations Studies of 4-Amino-3-hydroxyNaphthalene-1-Sulfonic Acid (ANSA)

Abstract

Experimental investigation and computational analysis with the DFT approach were done on 4-amino-3-hydroxy naphthalene-1-sulfonic acid (ANSA). Different spectroscopic analyses like NMR, FT-IR, and UV-Visible were performed. The molecular structure was optimized, and the wavenumbers of typical vibrational modes were calculated using the B3LYP method and the 6-311++G (d, p) basis set. After optimization, the calculated bond lengths and bond angles were compared with experimental ones and found well matched, described by RMSD values. Potential energy distribution (PED) obtained by VEDA. 13C and 1H NMR were calculated with the GIAO method which showed great resemblance with the experimental spectra. UV–Vis in different phases were calculated by the TD-DFT method and the CPCM solvent model and compared with the experimental. The HOMO-LUMO energy gap showed a great opportunity for charge transfer inside the molecule. The MEP surface analysis revealed the molecule’s charge distribution. To investigate the degree of relative localization of electrons, the FLF diagram was used. Eight distinct receptors were used in biological investigations for molecular docking analysis and a molecular dynamic simulation of 15 ns was performed to determine the best ligand-protein interactions. The drug-likeness was also investigated to see the drug-like properties.