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Bioinspired light-driven chloride pump with helical porphyrin channels

Chemistry

Bioinspired light-driven chloride pump with helical porphyrin channels

C. Li, Y. Zhai, et al.

Discover the innovative world of artificial ion pumping with this study on a light-driven chloride pump inspired by halorhodopsin. Conducted by Chao Li and colleagues, this research showcases a remarkable helical porphyrin channel array that mimics natural processes and offers exciting applications in optogenetics!

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Playback language: English
Abstract
Halorhodopsin, a light-driven chloride pump, utilizes photonic energy to drive chloride ions across biological membranes. Inspired by halorhodopsin, this study demonstrates an artificial light-driven chloride pump using a helical porphyrin channel array. The helical porphyrin channels are formed by a porphyrin-core star block copolymer, and defects are repaired by doping porphyrins. The repaired channel exhibits light-driven Cl⁻ migration against a 3-fold concentration gradient, showcasing ion pumping behavior. This bio-inspired pump offers prospects for designing responsive ion channel systems and high-performance optogenetics.
Publisher
Nature Communications
Published On
Jan 27, 2024
Authors
Chao Li, Yi Zhai, Heming Jiang, Siqi Li, Pengxiang Liu, Longcheng Gao, Lei Jiang
Tags
halorhodopsin
chloride pump
helical porphyrin
optogenetics
ion migration
bio-inspired
photonic energy

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