1983
DOI: 10.1021/ja00350a013
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Nonexponential fluorescence decay of tryptophan, tryptophylglycine, and glycyltryptophan

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Cited by 163 publications
(110 citation statements)
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“…When the ~L a state is excited at 300 nm, the fluorescence light is emitted in the range 330-360 nm. Hence, for these excitation and emission wavelengths one lifetime of the tryptophan fluorescence is expected and this is indeed found in some cases, the most notable one being N-acetyltryptophanamide (NATA) with a lifetime of about 3 ns (Szabo and Rayner 1980;Wijnaendts van Resandt et al 1980;Robbins et al 1980;Ross et al 1981;Chang et al 1983;Wagner et al 1987;Bismuto et al 1991;Vekshin et al 1992). However, the amino acid tryptophan already exhibits two lifetimes (at neutral pH).…”
Section: Introductionmentioning
confidence: 96%
“…When the ~L a state is excited at 300 nm, the fluorescence light is emitted in the range 330-360 nm. Hence, for these excitation and emission wavelengths one lifetime of the tryptophan fluorescence is expected and this is indeed found in some cases, the most notable one being N-acetyltryptophanamide (NATA) with a lifetime of about 3 ns (Szabo and Rayner 1980;Wijnaendts van Resandt et al 1980;Robbins et al 1980;Ross et al 1981;Chang et al 1983;Wagner et al 1987;Bismuto et al 1991;Vekshin et al 1992). However, the amino acid tryptophan already exhibits two lifetimes (at neutral pH).…”
Section: Introductionmentioning
confidence: 96%
“…The results are discussed with reference to the peculiar photophysics of tryptophan (Andrews and Forster 1974;Szabo and Rayner 1980;Chang et al 1983;Petrich et al 1983;Cross et al 1983;Ichiye and Karplus 1983;Creed 1984). Polarized fluorescence decay measurements were used to investigate the rotational motion of the tryptophans in both flavodoxins.…”
Section: Introductionmentioning
confidence: 99%
“…In aqueous solution, besides sub-ps photo-ionization [9-11] and intersystem crossing [12][13][14] at long times, the intermediate, nanosecond time scale is characterized by a multi-exponential fluorescence decay. The latter has been rationalized on the basis of different rotameric configurations [15], and is thought to involve an excited-state proton [15][16][17][18] or charge-transfer [19,20], eventually leading to a primary photoproduct whose spectroscopic signature has not been identified so far.Nanosecond photolysis studies have reported an absorption band (k peak = 400-440 nm, s $ 20-45 ns) -termed as 'T 1 ' [12][13][14], that could qualify for being the primary photoproduct's signature. It has been observed only in conditions in which Trp's side chain ammonium group is protonated (NH þ 3 ), which seems to be the key side chain group for S 1 quenching [17,20], but due to insufficient time-resolution, a direct correlation of its formation with the S 1 quenching time is lacking.…”
mentioning
confidence: 99%
“…In aqueous solution, besides sub-ps photo-ionization [9][10][11] and intersystem crossing [12][13][14] at long times, the intermediate, nanosecond time scale is characterized by a multi-exponential fluorescence decay. The latter has been rationalized on the basis of different rotameric configurations [15], and is thought to involve an excited-state proton [15][16][17][18] or charge-transfer [19,20], eventually leading to a primary photoproduct whose spectroscopic signature has not been identified so far.…”
mentioning
confidence: 99%