Triplets, radical cations and neutral semiquinone radicals of lumiflavin and riboflavin: An overhaul of previous pump–probe data and new multichannel absolute absorption spectra

A consistent set of absolute absorption spectra of F †, F •+ and FH • are presented (F = lumiflavin or riboflavin). [Display omitted] Though long-lived transient photoproducts of flavins have received much attention over the last five decades, their spectroscopic characterization remains rudimentary...

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Bibliographic Details
Published in:Journal of photochemistry and photobiology. B, Biology Biology, 2012-01, Vol.106 (5), p.34-39
Main Authors: Li, Heng, Melø, T.B., Razi Naqvi, K.
Format: Article
Language:English
Subjects:
absorption
aqueous solutions
Benzoquinones - chemistry
cations
Cations - chemistry
Flash photolysis
Flavin photochemistry
Flavins - chemistry
free radicals
Hydrogen-Ion Concentration
Lasers
nitrites
photobiology
Photolysis
riboflavin
Riboflavin - chemistry
spectral analysis
Spectrophotometry
triplets
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Summary:A consistent set of absolute absorption spectra of F †, F •+ and FH • are presented (F = lumiflavin or riboflavin). [Display omitted] Though long-lived transient photoproducts of flavins have received much attention over the last five decades, their spectroscopic characterization remains rudimentary and altogether inconclusive. Lumiflavin and riboflavin have therefore been reexamined, using nanosecond laser photolysis and multichannel detection over a wide spectral range (230–900 nm); differential absorption spectra of flavin solutions in aqueous buffer at neutral pH have been recorded; radical cations and semiquinone radicals were generated by quenching the triplets with C (NO 2) 4 (electron acceptor) and NO 2 - (electron donor), respectively. The problem of estimating the extent of ground state depletion after a single flash has been solved by developing a new strategy that provides reliable lower and upper bounds for the depletion (and for the molar absorption coefficients of the transient species of interest). The spectra of the neutral radicals and triplets of the two flavins are almost identical, but those of the two cations are not.
ISSN:1011-1344
1873-2682
DOI:10.1016/j.jphotobiol.2011.10.003