Dahham_2026_J.Comput.Aided.Mol.Des_40_

Reference

Title : Halogen-dependent electronic regulation of reactivity and acetylcholinesterase recognition in halomethyl acetates: a predictive DFT-docking framework - Dahham_2026_J.Comput.Aided.Mol.Des_40_
Author(s) : Dahham Abed Abed M , O MSYT , Muhsin Mohammed Youns Fto A , Kebiroglu MH , Bulut N
Ref : J Comput Aided Mol Des , 40 : , 2026
Abstract :

In this work, we propose a halogen-tuning framework that links electronic reactivity descriptors to enzyme recognition for halomethyl acetates (fluoromethyl, chloromethyl, and bromomethyl acetate). Density Functional Theory calculations were performed at the B3LYP/6-311G(d, p) level to explain structure property relationships across the F/Cl/Br substitution axis. Geometry optimization shows a systematic elongation of the C5-X bond (F < Cl < Br), while the ester carbonyl remains nearly invariant, suggesting a localized substituent effect. Frontier orbital energies analysis and global descriptors reveal that bromomethyl acetate is the softest and most electronically labile derivative, exhibiting the smallest HOMO-LUMO energy gap, whereas the fluorinated analogue demonstrates the highest kinetic stability. Simulated FT-IR, (1)H/(13)C NMR (GIAO), and TD-DFT UV-Vis spectra provide complementary fingerprints showing halogen-driven electronic modulation. Topological analyses (MEP, DOS, RDG/NCI/DORI) map the redistribution of electron density and weak interaction regions that rationalize the observed trends. Molecular docking against acetylcholinesterase (AChE; PDB: 1EVE) indicates a monotonic enhancement of binding affinity with increasing halogen polarizability, with bromomethyl acetate exhibiting the strongest predicted affinity. Collectively, these results establish a predictive structure reactivity recognition reasoning for halomethyl acetates and support their consideration as electrophile-tuned model systems for exploring substituent-dependent recognition tendencies.

PubMedSearch : Dahham_2026_J.Comput.Aided.Mol.Des_40_
PubMedID: 42126661

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Citations formats

Dahham Abed Abed M, O MSYT, Muhsin Mohammed Youns Fto A, Kebiroglu MH, Bulut N (2026)
Halogen-dependent electronic regulation of reactivity and acetylcholinesterase recognition in halomethyl acetates: a predictive DFT-docking framework
J Comput Aided Mol Des 40 :

Dahham Abed Abed M, O MSYT, Muhsin Mohammed Youns Fto A, Kebiroglu MH, Bulut N (2026)
J Comput Aided Mol Des 40 :