Position-Regulated Electrostatic Interactions for Single Amino Acid Revealed by Aspartic Acid-Scanning Mutagenesis.

We have examined in this contribution the electrostatic interactions between single arginine and aspartic acid by analyzing the peptide-peptide binding characteristics involving arginine-aspartic acid, arginine-glycine, arginine-tryptophan and tryptophan-glycine interactions. The results of aspartic acid mutagenesis revealed that the interactions between arginine and aspartic acid have significant dependence on the position and composition of amino acids. While the primary interaction can be attributed to arginine-tryptophan contacts originated from the indole moieties with the main chains of 14-mers containing N-H and C=O moieties, pronounced enhancement could be identified in association with the electrostatic side-chain-side-chain interactions between arginine and aspartic acid. An optimal separation of 2~4 amino acids between two adjacent aspartic acid and tryptophan binding sites can be identified to achieve maximal enhancement of binding interactions. Such observed separation dependence may be utilized to unravel cooperative effects in heterogeneous interactions between single pair of amino acids.