Litcius/Paper detail

Precise Recognition in Water by an <i>Endo</i>‐Functionalized Cavity: Tuning the Complementarity of Binding Sites

Yanfang Wang, Lili Wang, Xiaobin Zhang, Hao Nian, Li‐Shuo Zheng, Xiaoping Wang, Georg Schreckenbach, Wei Jiang, Liu‐Pan Yang, Lili Wang

2023Angewandte Chemie International Edition11 citationsDOI

Abstract

Precise binding towards structurally similar substrates is a common feature of biomolecular recognition. However, achieving such selectivity-especially in distinguishing subtle differences in substrates-with synthetic hosts can be quite challenging. Herein, we report a novel design strategy involving the combination of different rigid skeletons to adjust the distance between recognition sites within the cavity, which allows for the highly selective recognition of hydrogen-bonding complementary substrates, such as 4-chromanone. X-ray single-crystal structures and density functional theory calculations confirmed that the distance of endo-functionalized groups within the rigid cavity is crucial for achieving high binding selectivity through hydrogen bonding. The thermodynamic data and molecular dynamics simulations revealed a significant influence of the hydrophobic cavity on the binding affinity. The new receptor possesses both high selectivity and high affinity, which provide valuable insights for the design of customized receptors.

Topics & Concepts

Complementarity (molecular biology)Hydrogen bondMolecular recognitionSelectivityBinding siteBinding selectivityChemistryDensity functional theoryHydrophobic effectCombinatorial chemistryChemical physicsMoleculeComputational chemistryBiologyBiochemistryOrganic chemistryGeneticsCatalysisChemical Synthesis and AnalysisBiotin and Related StudiesMolecular Sensors and Ion Detection