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Reduced Flavin in Aqueous Solution Is Nonfluorescent.

Rylee A McBrideDavid T BarnardKimberly Jacoby-MorrisMd Harun-Or-RashidRobert J Stanley
Published in: Biochemistry (2023)
Flavins are blue-light-absorbing chromophores with rich redox activity. Biologically, the most important are riboflavin (vitamin B 2 ), flavin mononucleotide, and flavin adenine dinucleotide, the latter two of which are catalytic cofactors in enzymes. Flavins pivot between oxidized, one electron-, and two electron-reduced forms in different protonation states, depending on enzymatic requirements. Some flavoenzymes use light as a reagent for chemical bond formation, photoinduced electron transfer, or conformational changes required for light-sensitive signaling. Therefore, the photochemistry and photophysics of flavins have received wide attention. Fluorescence from oxidized flavin is often used to detect and track changes in flavin oxidation states. However, there have been conflicting reports over the past 45 years as to whether reduced flavin in solution has detectable fluorescence. Here, using single photon counting emission spectroscopy with rigorous sample preparation, we show definitively that reduced flavins are essentially nonfluorescent, having a quantum yield more than three orders of magnitude lower than oxidized flavin. This result will force a re-evaluation of experiments and models that assumed otherwise.
Keyphrases
  • electron transfer
  • single molecule
  • aqueous solution
  • hydrogen peroxide
  • low density lipoprotein
  • high resolution