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Ryan, Lucas S.; Gerberich, Jeni; Cao, Jian; An, Weiwei; Jenkins, Becky A.; Mason, Ralph P.; Lippert, Alexander R. (, ACS Sensors)
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An, Weiwei; Mason, Ralph P.; Lippert, Alexander R. (, Organic & Biomolecular Chemistry)Chemiluminescence imaging offers a low background and high sensitivity approach to imaging analytes in living cells and animals. Intensity-based measurements have been developed, but require careful consideration of kinetics, probe localization, and fluctuations in quantum yield, all of which complicate quantification. Here, we report a ratiometric strategy for quantitative chemiluminescence imaging of pH. The strategy relies on an energy transfer cascade of chemiluminescence emission from a spiroadamantane 1,2-dioxetane to a ratiometric pH indicator via fluorescent dyes in Enhancer solutions. Monitoring the pH-dependent changes in chemiluminescence emission at multiple wavelengths enables ratiometric imaging and quantification of pH independent from variations due to kinetics and probe concentration.more » « less
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An, Weiwei; Ryan, Lucas S.; Reeves, Audrey G.; Bruemmer, Kevin J.; Mouhaffel, Lyn; Gerberich, Jeni L.; Winters, Alexander; Mason, Ralph P.; Lippert, Alexander R. (, Angewandte Chemie International Edition)Abstract Azanone (HNO) is a reactive nitrogen species with pronounced biological activity and high therapeutic potential for cardiovascular dysfunction. A critical barrier to understanding the biology of HNO and furthering clinical development is the quantification and real‐time monitoring of its delivery in living systems. Herein, we describe the design and synthesis of the first chemiluminescent probe for HNO,HNOCL‐1, which can detect HNO generated from concentrations of Angeli's salt as low as 138 nmwith high selectivity based on the reaction with a phosphine group to form a self‐cleavable azaylide intermediate. We have capitalized on this high sensitivity to develop a generalizable kinetics‐based approach, which provides real‐time quantitative measurements of HNO concentration at the picomolar level.HNOCL‐1can monitor dynamics of HNO delivery in living cells and tissues, demonstrating the versatility of this method for tracking HNO in living systems.more » « less
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