Abstract
The structural and biological mechanism of a drug material was investigated by spectroscopic techniques and molecular modeling methods. The experimental spectroscopic techniques, namely Fourier Transform Infrared and Fourier Transform Raman spectroscopies are recorded for the structural confirmation and were also compared with computed values. The stability of the compound, the intermolecular and intra molecular interactions is studied using the density functional theory tool Gaussian 16 W. The optimized molecular geometry, vibrational wavenumbers, infrared intensities, and Raman scattering activities are calculated. Natural Bond Orbital analysis has been carried out to explain the charge transfer (or) delocalization of charge due to the intra molecular interactions. The Time dependent-Density functional theory is used to evaluate the excitations between different energy levels, the interpretation which affords good information about D-(-)-alpha-Phenylglycine’s electronic properties with different solvation effects. Reactive sites were also analyzed using topological studies. To explore the biological activities docking studies of D-(-)-alpha-Phenylglycine is performed with Prolactinoma and hyperprolactinemia diseases.
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