Stochastic Sensing of Chloride Anions Using an α-Hemolysin Pore with a semiaza-Bambusuril Adapter

Ofer Reany; Mercedes Romero-Ruiz; Raman Khurana; Pravat Mondal; Ehud Keinan; Hagan Bayley

doi:10.1002/anie.202406719

Stochastic Sensing of Chloride Anions Using an α-Hemolysin Pore with a semiaza-Bambusuril Adapter

Ofer Reany, Mercedes Romero-Ruiz, Raman Khurana, Pravat Mondal, Ehud Keinan, Hagan Bayley

Chemistry

Research output: Contribution to journal › Article › peer-review

Abstract

Pores containing molecular adapters provide internal selective binding sites, thereby allowing the stochastic sensing of analytes. Herein, we demonstrate that semiaza-bambusuril (BU) acts as a non-covalent molecular adapter when lodged within the lumen of the wild-type α-hemolysin (WT-αHL) protein pore. Because the bambusurils are recognized as anion receptors, the anion binding site within the adapter-nanopore complex allows the detection of chloride anions, thus converting a non-selective pore into an anion sensor.

Original language	English
Article number	e202406719
Pages (from-to)	e202406719
Journal	Angewandte Chemie - International Edition
Volume	63
Issue number	39
DOIs	https://doi.org/10.1002/anie.202406719
State	Published - 23 Sep 2024

Bibliographical note

Keywords

bambusurils
chloride anions
nanopore
stochastic sensing
α-hemolysin

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10.1002/anie.202406719

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abstract = "Pores containing molecular adapters provide internal selective binding sites, thereby allowing the stochastic sensing of analytes. Herein, we demonstrate that semiaza-bambusuril (BU) acts as a non-covalent molecular adapter when lodged within the lumen of the wild-type α-hemolysin (WT-αHL) protein pore. Because the bambusurils are recognized as anion receptors, the anion binding site within the adapter-nanopore complex allows the detection of chloride anions, thus converting a non-selective pore into an anion sensor.",

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AU - Khurana, Raman

AU - Mondal, Pravat

AU - Keinan, Ehud

AU - Bayley, Hagan

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AB - Pores containing molecular adapters provide internal selective binding sites, thereby allowing the stochastic sensing of analytes. Herein, we demonstrate that semiaza-bambusuril (BU) acts as a non-covalent molecular adapter when lodged within the lumen of the wild-type α-hemolysin (WT-αHL) protein pore. Because the bambusurils are recognized as anion receptors, the anion binding site within the adapter-nanopore complex allows the detection of chloride anions, thus converting a non-selective pore into an anion sensor.

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Stochastic Sensing of Chloride Anions Using an α-Hemolysin Pore with a semiaza-Bambusuril Adapter

Abstract

Bibliographical note

Keywords

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