6 research outputs found
Photoinduced dynamics of oxyluciferin analogues: Unusual enol "super"photoacidity and evidence for keto-enol isomerization
International audienceThe first systematic pico-nanosecond time-resolved spectroscopic study of the firefly emitter oxyluciferin and two of its chemically modified analogues revealed that in the excited state the enol group is more acidic than the phenol group. The 6'-dehydroxylated derivative, in which only the 4-enolic hydroxyl proton is acidic, has an experimentally determined pK a* of 0.9 in dimethyl sulfoxide and an estimated pK a* of -0.3 in water. Moreover, this compound provided direct evidence that in a nonpolar, basic environment the keto form in the excited state can tautomerize into the enol, which subsequently undergoes excited-state proton transfer (ESPT) to produce enolate ion. This observation presents the first experimental evidence of excited-state keto-enol tautomerization of a firefly fluorophore, and it could be important in resolving the enol-keto conundrum related to the color-tuning mechanism of firefly bioluminescence. The 6'-dehydroxylated form of oxyluciferin adds a very rare case of a stable enol to the family of "super"photoacids. Cop. 2012 American Chemical Society
The meta-green fluorescent protein chromophore
m-Hydroxy isomer of the green fluorescent protein synthetic analogue (m-HBDI) was synthesized. By analogy to hydroxystilbenes, longer singlet lifetimes and lower isomerization quantum yields were observed for the meta versus para isomer of the chromophore
Keto or Enol-That is the Question: Recent Progress in Spectra-Structure Correlations of Firefly Oxyluciferin and its Derivatives
International audienc
Fluorescence resonance energy transfer in recognition-mediated polymer-quantum dot assemblies
We have demonstrated fluorescence resonance energy transfer facilitated by recognition mediated assembly of quantum dots and a tailor-made fluorescent polymer