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Manipulating Cation-π Interactions with Genetically Encoded Tryptophan Derivatives

Hongxia Zhao, Chao Liu, Wenlong Ding, Ling Tang, Fang Yu, Yulin Chen, Linzhen Hu, Ying Yuan, Dong Fang, Shixian Lin

2022Journal of the American Chemical Society31 citationsDOI

Abstract

Cation-π interactions are the major noncovalent interactions for molecular recognition and play a central role in a broad area of chemistry and biology. Despite tremendous success in understanding the origin and biological importance of cation-π interactions, the design and synthesis of stronger cation-π interactions remain elusive. Here, we report an approach that greatly increases the binding energy of cation-π interactions by replacing Trp in the aromatic box with an electron-rich Trp derivative using the genetic code expansion strategy. The binding affinity between histone H3K4me3 and its reader is increased more than eightfold using genetically encoded 6-methoxy-Trp. Furthermore, through a systematic engineering process, we construct an H3K4me3 Super-Reader with single-digit nM affinity for H3K4me3 detection and imaging. More broadly, this approach paves the way for manipulating cation-π interactions for a variety of applications.

Topics & Concepts

ChemistryH3K4me3Non-covalent interactionsComputational biologyHistoneTryptophanCombinatorial chemistryDNAMoleculeBiochemistryGeneAmino acidPromoterGene expressionOrganic chemistryHydrogen bondBiologyRNA and protein synthesis mechanismsChemical Synthesis and AnalysisClick Chemistry and Applications
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