Single-exponential fluorescence decay of the nonnatural amino acid 7-azatryptophan and the nonexponential fluorescence decay of tryptophan in water

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Abstract

The fluorescence decay of an optical probe, the nonnatural amino acid 7-azatryptophan, is measured as a function of pH, in varying mixtures of H2O and D2O and in various nonaqueous solvents. The spectroscope distinguishability of 7-azatryptophan is demonstrated by the comparison of its fluorescence lifetime in mixtures of N-acetyltryptophanamide (NATA) with that of mixtures of 5-hydroxytryptophan in NATA. The observation of single-exponential fluorescence decay for 7-azatryptophan in water is discussed in terms of nonradiative processes that compete effectively with charge transfer from the excited-state 7-azaindole to the side chain groups and in terms of the dependence of the charge-transfer reaction on the excited-state energy of 7-azaindole We propose that the absence of nonexponential fluorescence decay (owing to the relative insignificance of charge transfer to the side chain as a nonradiative process in 7-azatryptophan in water) arises from an unfavorable free energy of reaction. This free energy is determined largely by the energy of the fluorescent state, which lies 46 nm (9.8 kcal/mol) below that of tryptophan when the solvent is water. © 1994 American Chemical Society.

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Chen, Y., Gai, F., & Petrich, J. W. (1994). Single-exponential fluorescence decay of the nonnatural amino acid 7-azatryptophan and the nonexponential fluorescence decay of tryptophan in water. Journal of Physical Chemistry, 98(8), 2203–2209. https://doi.org/10.1021/j100059a039

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