Thiel, ZachariasRivera-Fuentes, Pablo2019-10-302019-10-302019-10-30201910.1002/anie.201904700https://infoscience.epfl.ch/handle/20.500.14299/162462Many biomacromols. are known to cluster in microdomains with specific subcellular localization. In the case of enzymes, this clustering greatly defines their biol. functions. Nitroreductases are enzymes capable of reducing nitro groups to amines, and play a role in detoxification and pro-drug activation. Although nitroreductase activity has been detected in mammalian cells, the subcellular localization of this activity remains incompletely characterized. Here, we report a fluorescent probe that enables super-resolved imaging of pools of nitroreductase activity within mitochondria. This probe is activated sequentially by nitroreductases and light to give a photo-crosslinked adduct of active enzymes. In combination with a general photoactivatable marker of mitochondria, we performed two-color, three-dimensional, single-mol. localization microscopy. These expts. allowed us to image the sub-mitochondrial organization of microdomains of nitroreductase activity.AminesDetoxificationEnzymesFluorescencefluorescent probesFluorescent probesimaging mitochondria nitroreductase fluorescence sensorMammalsMitochondriaMoleculesnitroreductasesNitroreductasesPhoto activationsphoto-crosslinkingphotoactivationPhotocross-linkingProbessuper-resolution microscopySuper-resolution microscopytext::journal::journal article::research article