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Abstract
The reaction of superoxide with the spin trap DMPO (5,5-dimethylpyrroline-N-oxide) is widely used to study superoxide production as well as issues associated with the superoxide-related formation of hydroxyl radical. However, the interpretation of observed intensities of DMPO/•OOH and DMPO/•OH signals in electron paramagnetic resonance spin trapping experiments is not without its difficulties. In this paper, I report experiments that demonstrate: 1. That the flux of superoxide formation in a DMPO spin trapping experiment can alter the apparent importance of weak DMPO/•OH signals; 2. That iron can influence the DMPO/•OOH spin trapping results; 3. That there is very little spontaneous breakdown of DMPO/•OOH to form DMPO/•OH.