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چکیده
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An Isoniazid derivative, N’-isonicotinoylnicotinohydrazonamide (1), was synthesized via a reaction between Isoniazid and 3- cyanopyridine. It was established that 1 adopts a keto conformation in the solid state, forming a 2D supramolecular network stabilized by N─H⋯O and N─H⋯N hydrogen bonds. The NMR studies indicated the presence of two conformational isomers, a behavior attributed to the greater flexibility imparted by the meta-positioned nitrogen in the nicotinoyl moiety, in contrast to its rigid picolinoyl-containing isomer 2, which was reported by us previously. Hirshfeld surface analysis quantified the intermolecular interactions of 1, identifying H⋯H, H⋯C, H⋯N, and H⋯O contacts as the most significant contributors to the crystal packing. DFT calculations provided insights into the electronic structure, molecular electrostatic potential, and global reactivity descriptors, which characterized 1 as a strong electrophile. A combined QTAIM/NCI analysis confirmed the presence of prominent intramolecular interactions. In silico ADMET profiling of 1 predicted a favorable pharmacokinetic profile with high gastrointestinal absorption but potential hepatotoxicity and neurotoxicity. Molecular docking studies against key Mycobacterium tuberculosis proteins, viz. Proteasomal ATPase Mpa, Serine/threonine-protein kinase, and Arabinosyltransferase, demonstrated that 1 exhibits superior binding affinity and ligand efficiency compared to the parent Isoniazid, suggesting its potential as a promising lead compound for anti-tuberculosis drug development.
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