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Halogen Bonds in Ligand–Protein Systems: Molecular Orbital Theory for Drug Design

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Halogen bonds are highly important in medicinal chemistry as halogenation of drugs, generally, improves both selectivity and efficacy toward protein active sites. However, accurate modeling of halogen bond interactions remains… Click to show full abstract

Halogen bonds are highly important in medicinal chemistry as halogenation of drugs, generally, improves both selectivity and efficacy toward protein active sites. However, accurate modeling of halogen bond interactions remains a challenge, since a thorough theoretical investigation of the bonding mechanism, focusing on the realistic complexity of drug–receptor systems, is lacking. Our systematic quantum-chemical study on ligand/peptide-like systems reveals that halogen bonding is driven by the same bonding interactions as hydrogen bonding. Besides the electrostatic and the dispersion interactions, our bonding analyses, based on quantitative Kohn–Sham molecular orbital theory together with energy decomposition analysis, reveal that donor–acceptor interactions and steric repulsion between the occupied orbitals of the halogenated ligand and the protein need to be considered more carefully within the drug design process.

Keywords: ligand protein; drug; halogen; molecular orbital; orbital theory; halogen bonds

Journal Title: Journal of Chemical Information and Modeling
Year Published: 2020

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