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Predicting the Strength of Stacking Interactions Between Heterocycles and Aromatic Amino Acid Side Chains

revised on 01.05.2019, 20:53 and posted on 02.05.2019, 18:53 by Andrea N. Bootsma, Analise C. Doney, Steven Wheeler
Despite the ubiquity of stacking interactions between heterocycles and aromatic amino acids in biological systems, our ability to predict their strength, even qualitatively, is limited. Based on rigorous ab initio data, we have devised a simple predictive model of the strength of stacking interactions between heterocycles commonly found in biologically active molecules and the amino acid side chains Phe, Tyr, and Trp. This model provides reliable predictions of the stacking ability of a given heterocycle based on readily-computed heterocycle descriptors, obviating the need for quantum chemical computations of stacked dimers. We show that the values of these descriptors, and therefore the strength of stacking interactions with aromatic amino acid side chains, follow simple predictable trends and can be modulated by changing the number and distribution of heteroatoms within the heterocycle. This provides a simple conceptual model for understanding stacking interactions in protein binding sites and tuning the strength of stacking interactions in drug design.


NSF CHE-1254897


Email Address of Submitting Author


University of Georgia



ORCID For Submitting Author


Declaration of Conflict of Interest

No conflict of interest