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RESEARCH PRODUCT

Density functional theory fragment descriptors to quantify the reactivity of a molecular family: Application to amino acids

Patrick SenetFelipe Aparicio

subject

Models Molecularchemistry.chemical_classificationQuantitative Biology::BiomoleculesQuantitative structure–activity relationshipBinding SitesChemistryAb initioGeneral Physics and AstronomyAmino acidModels ChemicalAb initio quantum chemistry methodsComputational chemistryMolecular descriptorMoleculeComputer SimulationDensity functional theoryAmino AcidsPhysical and Theoretical ChemistryAlgorithmsFragment molecular orbitalProtein Binding

description

By using the exact density functional theory, one demonstrates that the value of the local electronic softness of a molecular fragment is directly related to the polarization charge (Coulomb hole) induced by a test electron removed (or added) from (at) the fragment. Our finding generalizes to a chemical group a formal relation between these molecular descriptors recently obtained for an atom in a molecule using an approximate atomistic model [P. Senet and M. Yang, J. Chem. Sci. 117, 411 (2005)]. In addition, a practical ab initio computational scheme of the Coulomb hole and related local descriptors of reactivity of a molecular family having in common a similar fragment is presented. As a blind test, the method is applied to the lateral chains of the 20 isolated amino acids. One demonstrates that the local softness of the lateral chain is a quantitative measure of the similarity of the amino acids. It predicts the separation of amino acids in different biochemical groups (aliphatic, basic, acidic, sulfur contained, and aromatic). The present approach may find applications in quantitative structure activity relationship methodology.

https://doi.org/10.1063/1.2715570