Nature Communications (Jan 2024)

Bioinspired light-driven chloride pump with helical porphyrin channels

  • Chao Li,
  • Yi Zhai,
  • Heming Jiang,
  • Siqi Li,
  • Pengxiang Liu,
  • Longcheng Gao,
  • Lei Jiang

DOI
https://doi.org/10.1038/s41467-024-45117-1
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 9

Abstract

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Abstract Halorhodopsin, a light-driven chloride pump, utilizes photonic energy to drive chloride ions across biological membranes, regulating the ion balance and conveying biological information. In the light-driven chloride pump process, the chloride-binding chromophore (protonated Schiff base) is crucial, able to form the active center by absorbing light and triggering the transport cycle. Inspired by halorhodopsin, we demonstrate an artificial light-driven chloride pump using a helical porphyrin channel array with excellent photoactivity and specific chloride selectivity. The helical porphyrin channels are formed by a porphyrin-core star block copolymer, and the defects along the channels can be effectively repaired by doping a small number of porphyrins. The well-repaired porphyrin channel exhibits the light-driven Cl− migration against a 3-fold concentration gradient, showing the ion pumping behavior. The bio-inspired artificial light-driven chloride pump provides a prospect for designing bioinspired responsive ion channel systems and high-performance optogenetics.