Abstract:Focused ultrasound, as a protocol of cancer therapy,
might induce
extracellular adenosine triphosphate (ATP) release, which could enhance
cancer immunotherapy and be monitored as a therapeutic marker. To
achieve an ATP-detecting probe resistant to ultrasound irradiation,
we constructed a Cu/N-doped carbon nanosphere (CNS), which has two
fluorescence (FL) emissions at 438 and 578 nm to detect ultrasound-regulated
ATP release. The addition of ATP to Cu/N-doped CNS was conducted to
recover the FL intensity at 438… Show more
This study reports a fluorescent nanoprobe operated on a fluorescence turn-on mode for simultaneously sensing and imaging intracellular GSH and ATP. By using maleimide-derivatives as the ligand, the bimetallic nanoscale...
This study reports a fluorescent nanoprobe operated on a fluorescence turn-on mode for simultaneously sensing and imaging intracellular GSH and ATP. By using maleimide-derivatives as the ligand, the bimetallic nanoscale...
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