# Triply Responsive Control of Ion Transport with an Artificial Channel Creates a Switchable AND to OR Logic Gate

**Authors:** Javid Ahmad Malla, Kharina J. Fenton, Adinarayana Bellamkonda, Samuel I. Fidler, Mark I. Wallace, Charlie T. McTernan

PMC · DOI: 10.1002/anie.202517444 · Angewandte Chemie (International Ed. in English) · 2025-11-17

## TL;DR

Scientists created an artificial ion channel that can be controlled by three different triggers and used it to build a molecular logic gate.

## Contribution

The paper introduces a triply responsive artificial ion channel that enables a switchable AND to OR logic gate using light, pH, and ligand stimuli.

## Key findings

- The artificial ion channel can be controlled by three orthogonal stimuli: light, pH, and ligand.
- The channel's activity can be modulated over 170-fold using these stimuli.
- Single molecule studies show high and low conductance states based on irradiation wavelength.

## Abstract

Ion channels are ubiquitous in Nature, performing complex and essential tasks in our bodies. Synthetic chemists have begun to understand how to form artificial channels, which hold great promise as components in artificial cells, and in synthetic biology more widely. Future generations of these systems will be critical in the treatment of channelopathies. Despite advances in synthetic ion transporters, the current generation cannot approach the selectivity and controllability of the biological ion channels they seek to emulate, and multimodal control over activity remains hard to achieve. Herein, we present a synthetic ion channel whose activity can be controlled by three orthogonal stimuli (light, pH, guest/ligand), based on a pillar[5]arene functionalized with photoswitchable ortho‐tetrafluoroazobenzene moieties. We demonstrate excellent control over ten photoswitches (E‐to‐Z 82%, Z‐to‐E quant.). We show that the most active Z‐isomer forms dimeric ion channels in membranes. Single molecule planar bilayer conductance studies show high and low conductance states dependent on irradiation wavelength. We demonstrate that this activity can be modulated over 170‐fold by controlling pH, irradiation, and guest addition. We use these three stimuli to design a pH switchable AND to OR logic gate system, creating a powerful addition to the canon of synthetic ion channels.

We report a triply responsive artificial ion channel, showing tuneable activity, and responsive to three distinct stimuli ‐ light, pH, and ligand – which we use to formulate an AND to OR switchable molecular logic gate.

## Linked entities

- **Chemicals:** pillar[5]arene (PubChem CID 139050735)

## Full-text entities

- **Diseases:** channelopathies (MESH:D053447)
- **Chemicals:** ortho-tetrafluoroazobenzene (-)

## Full text

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## Figures

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## References

78 references — full list in the complete paper: https://tomesphere.com/paper/PMC12790355/full.md

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Source: https://tomesphere.com/paper/PMC12790355