A simple molecular fluorescent probe L has been designed, synthesized and characterized. The probe upon interaction with different metals ions show high selectivity and sensitivity for Ni(2+) through fluorescence "turn-off" response in acetonitrile, and the fluorescence could be recovered when chelating agent TPEN is added in this system, viz an "on-off-on" process. Its recognition mechanism has been established by fluorescence spectra, (1)H NMR study. Moreover, to further explore its utility in biological system, L is selected as a probe for Ni(2+) indicator in live cells and shows sensitivity on Ni(2+) intracellular distribution. Fluorescence co-localization studies demonstrate that L is a specific mitochondria-targeted fluorescent probe with excellent cell membrane permeability. Furthermore, a rapidly reversible fluorescence imaging of probe L detecting Ni(2+) in the mitochondria is successfully achieved. These facts would make this probe a great potential for detecting Ni(2+) in biology.
Keywords: Biological application; Fluorescence probe; Mitochondria; Nickel ion; Recognition mechanism.
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