Ratiometric fluorescent sensors for detecting zinc ions in aqueous solution and living cells with two-photon microscopy

Abstract

We report two fluorescent Zn 2+ sensors, AD1 and AD2. In aqueous solution, upon addition of Zn 2+, AD1 only showed the enhancement on the fluorescence intensity, while AD2, acting as a ratiometric sensor, demonstrated the variations not only on the fluorescence intensity but also on the emission wavelengths. Both sensors exhibit high sensitivity (nM level) and selectivity for Zn 2+ over Na +, K +, Mg 2+, and Ca 2+ at the millimolar level. Moreover, AD2 undergoes significant increase of the TPA cross sections ( δ max) at 840 nm by the Zn 2+-coordination induced ICT enhancement. The laser scanning confocal microscopy experiments revealed that AD2 is cell-permeable and can indeed visualize the changes of intracellular Zn 2+ in living cells through a ratiometric approach by utilizing two-photon excitation.