Physics – Chemical Physics
Scientific paper
2007-05-22
Physics
Chemical Physics
6 pages, 4 figures, submitted to J Chem Phys
Scientific paper
10.1063/1.2800564
Two different metrics are used to assess Forster resonance energy transfer (FRET) between fluorophores in the steady state: (1) acceptor-quenching of donor fluorescence, E (a.k.a. transfer efficiency); and (ii) donor-excited acceptor fluorescence, F-A-Dex. While E is still more widely used, F-A-Dex has been gaining in popularity for practical reasons among experimentalists who study biomembranes. Here, for the special case of membrane-bound fluorophores, we present a substantial body of experimental evidence that justifies the use of simple Stern-Volmer expressions when modeling either FRET metric under dilute-probe conditions. We have also discovered a dilute-regime correspondence between our Stern-Volmer expression for E and Wolber and Hudson's series approximation for steady-state Forster quenching in 2D. This novel correspondence allows us to interpret each of our 2D quenching constants in terms of both (i) an effective Forster distance, and (ii) two maximum acceptor-concentration limits, each of which defines its own useful experimental regime. Taken together, our results suggest a three-step strategy toward designing more effective steady-state FRET experiments for the study of biomembranes.
Buboltz Jeffrey T.
Bwalya Charles
Kamburov Dobromir
Reyes Santiago
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