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A facile synthesis, characterization, DFT, ADMET and in-silico molecular docking analysis of novel 4-ethyl acridine-1,3,9 (2,4,10H)-trione

Prakash Jayavel, Venkateswaramoorthi Ramasamy, Nepolraj Amaladoss, Vijayakumar Renganathan, V. I. Shupeniuk

2024Chemical Physics Impact33 citationsDOIOpen Access PDF

Abstract

A novel synthetic reaction was employed to produce an acridine derivative of 4-ethyl acridine-1,3,9 (2,4,10H)-trione. The structural characterizations of the synthesized compound were confirmed through FT-IR, NMR 1H,13C, and GC-Mass spectral data. Furthermore, the DFT approaches were performed to the vibrational wavenumbers obtained through simulation with experimental wave numbers. The Vibrational Energy Distribution Analysis (VEDA) software is employed in FT-IR wave number for conducting potential energy decomposition (PED) analysis. DFT calculations were also applied to optimize the structural parameters and investigate Frontier molecular orbitals (FMOs), molecular electrostatic potentials, RDG studies, and global chemical reactivity descriptors, Natural bond orbital analysis and Non-linear optical properties were obtained for the title compound using the DFT method. Molecular docking studies were conducted to explore the binding mode mechanism of title compound and were evaluated for cancer-related proteins, specifically 4y72. Also, the synthesised compound was evaluated for Drug-likeness, and ADMET (Absorption, Distribution, Metabolism, Excretion, and Toxicity) properties indicating favourable pharmacokinetic profiles with no observed signs of toxicity.

Topics & Concepts

Molecular orbitalAcridineChemistryComputational chemistryADMEMolecular modelDensity functional theoryChemical shiftHOMO/LUMOCombinatorial chemistryCarbon-13 NMRMoleculeStereochemistryPhysical chemistryOrganic chemistryBiochemistryIn vitroNonlinear Optical Materials ResearchSynthesis and biological activitySynthesis and Characterization of Heterocyclic Compounds