| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 10738091 | Free Radical Biology and Medicine | 2012 | 16 Pages |
Abstract
⺠NOX enzymes have the sole known function to generate reactive oxygen species (ROS). ⺠Distinguishing NOX from other sources of ROS requires careful experimentation. ⺠This review gives a snapshot of methods used to detect NOX-derived ROS in tissues. ⺠Promising new technologies are discussed for the measurement of NOX activity.
Keywords
HOClO2−•MCLAL-012cpYFPProbesWST-1TPOCGDDUOXDPIDCFHNBTGSHESR2′,7′-dichlorofluorescein2-OH-E+2-hydroxyethidiumNOxONOO−ROSnitroblue tetrazoliumHydrogen peroxideEthidiumMRIPhoto-induced electron transferNADPH oxidasechronic granulomatous diseaseMagnetic resonance imagingOxidative stressThyroperoxidasedual oxidaseDiphenyleneiodoniumSuperoxide anion radicalElectron spin resonanceSODsuperoxide dismutasesendoplasmic reticulumMass spectrometryFluorescenceAGTHydroethidineH2O2PETPeroxynitritehigh performance liquid chromatographyHPLCGlutathioneReactive oxygen species
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Authors
Ghassan J. Maghzal, Karl-Heinz Krause, Roland Stocker, Vincent Jaquet,