Targeting Protein Pockets with Halogen Bonds: The Role of the Halogen Environment

Targeting Protein Pockets with Halogen Bonds: The Role of the Halogen Environment

Protein pockets that form a halogen bond (X-bond) with a halogenated ligand molecule simultaneously form other (mainly hydrophobic) interactions with the halogen atom that can be considered as its “X-bond environment” (XBenv). Most studies in the field have focused on the X-bond, with the properties...

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Veröffentlicht in:Journal of chemical information and modeling 2022-12, Vol.62 (24), p.6494-6507
Hauptverfasser: Bogado, María Lucrecia, Villafañe, Roxana Noelia, Gómez Chavez, José Leonardo, Angelina, Emilio Luis, Sosa, Gladis Laura, Peruchena, Nélida María
Format: Artikel
Sprache:eng
Schlagworte:
Charge density
Computational Chemistry
Halogens - chemistry
Ligands
Machine learning
Proteins
Proteins - chemistry
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Zusammenfassung:Protein pockets that form a halogen bond (X-bond) with a halogenated ligand molecule simultaneously form other (mainly hydrophobic) interactions with the halogen atom that can be considered as its “X-bond environment” (XBenv). Most studies in the field have focused on the X-bond, with the properties of the XBenv usually overlooked. In this work, we derived a protocol that evaluates the XBenv strength as a measure of the propensity of a protein pocket to host an X-bond. The charge density-based topological descriptors in combination with machine learning tools were employed to predict formation and strength of the interactions that conform the XBenv as a function of their geometrical parameters. On the basis of these results, we propose that the XBenv can be used as a footprint to judge the chance of a protein pocket to form an X-bond.
ISSN:1549-9596
1549-960X
DOI:10.1021/acs.jcim.2c00475