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Reversible Ratiometric Fluorescent Probe for Sensing Bisulfate/H2O2 and Its Application in Zebrafish
July 12 2017
July 12 2017
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Abstract
Herein, a novel near-infrared fluorescent probe for ratiometric detection of bisulfate
was designed and developed based on a conjugation of naphthopyran-benzothiazolium
system. The sensor showed excellent selectivity, high sensitivity and a rapid response
toward bisulfite in aqueous solution. Upon the addition of HSO3-, the sensor displayed
37-fold (I520/I630) fluorescence intensity enhancement, accompanied by an apparent
color change from violet to colorless, suggesting that the sensor can be used to detect
HSO3- with "naked-eye". Notably, the addition product can be applied to the design
of regenerative chemodosimeters based on the H2O2 promoted elimination of bisulfite
and recovery of probe 1. Further cell and zebrafish imaging experiment demonstrated
that the sensor could image the bisulfite/H2O2 redox cycle in biological system with
ratiometric manners.
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