Permeability-Controllable Potentiometric Fluorescent Probes Enable Visually Discriminating Near-Zero and Normal Situations of Cell Membrane Potential | Zendy

Huamiao Zhang | Zendy; Xiuquan He | Zendy; Xuechen Li | Zendy; Lifang Guo | Zendy; Fangfang Meng | Zendy; Rui Yang | Zendy; Chuanya Li | Zendy; Zhiqiang Liu | Zendy; Xiaoqiang Yu | Zendy

Open Access

Permeability-Controllable Potentiometric Fluorescent Probes Enable Visually Discriminating Near-Zero and Normal Situations of Cell Membrane Potential

Author(s) -

Huamiao Zhang,

Xiuquan He,

Xuechen Li,

Lifang Guo,

Fangfang Meng,

Rui Yang,

Chuanya Li,

Zhiqiang Liu,

Xiaoqiang Yu

Publication year - 2021

Publication title -

analytical chemistry

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.117

H-Index - 332

eISSN - 1520-6882

pISSN - 0003-2700

DOI - 10.1021/acs.analchem.0c04928

Subject(s) - chemistry , potentiometric titration , fluorescence , membrane , membrane potential , membrane permeability , permeability (electromagnetism) , biological system , biophysics , cell membrane , analytical chemistry (journal) , chromatography , biochemistry , optics , electrode , physics , biology

The permeability-controllable potentiometric fluorescent probes that can visually discriminate near-zero and normal situations of cell membrane potential were reported for the first time. Different from traditional potentiometric probes that utilize fluorescence intensity to reflect membrane potential, CQ12 and CP12 have different localizations under the two situations of cell membrane potential. Thus, the two situations can be point-to-point indicated by two fluorescent images with an obvious difference, avoiding complex operations and calibration of conventional methods.

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