Analyzing the cation‐aromatic interactions in proteins: Cation‐aromatic database V2.0

Abstract

AbstractThe cation‐aromatic database (CAD) is a comprehensive repository of cation‐aromatic motifs found in experimentally determined protein structures, first reported in 2007 [Proteins, 2007, 67, 1179]. The present article is an update of CAD that contains information of approximately 27.26 million cation‐aromatic motifs. CAD uses three distance parameters (r, d1, and d2) to determine the position of the cation relative to the centroid of the aromatic residue and classifies the motifs as cation‐π or cation‐σ interactions. As of June 2023, about 193 936 protein structures were retrieved from Protein Data Bank, and this resulted in the identification of an impressive number of 27 255 817 cation‐aromatic motifs. Among these motifs, spherical motifs constituted 94.09%, while cylindrical motifs made up the remaining 5.91%. When considering the interaction of metal ions with aromatic residues, 965 564 motifs are identified. Remarkably, 82.08% of these motifs involved the binding of metal ions to the amino acid HIS. Moreover, the analysis of binding preferences between cations and aromatic residues revealed that the HIS‐HIS, PHE‐ARG, and TRP‐ARG pairs exhibited a preferential geometry. The motif pair HIS‐HIS was the most prevalent, accounting for 19.87% of the total, closely followed by TYR‐LYS at 10.17%. Conversely, the motif pair TRP‐HIS had the lowest occurrence, representing only 4.20% of the total. The data generated help in revealing the characteristics and biological functions of cation‐aromatic interactions in biological molecules. The updated version of CAD (Cation‐Aromatic Database V2.0) can be accessed at https://acds.neist.res.in/cadv2.