Fluorescence quantum yield of visual pigments: Evidence for subpicosecond isomerization rates

A. G. Doukas; M. R. Junnarkar; R. R. Alfano; R. H. Callender; T. Kakitani; B. Honig

doi:10.1073/pnas.81.15.4790

Fluorescence quantum yield of visual pigments: Evidence for subpicosecond isomerization rates

A. G. Doukas, M. R. Junnarkar, R. R. Alfano, R. H. Callender, T. Kakitani, B. Honig

Zuckerman Institute

Producción científica › revisión exhaustiva

67 Citas (Scopus)

Resumen

The fluorescence quantum yields (Φ(f)) for bovine and squid rhodopsins are determined. Both pigments yield similar results, with an average value for Φ(f) of 1.2 (± 0.5) x 10^-5. Since the estimated radiative lifetime of rhodopsin is 5 nsec, the rate constant of the process that competes with fluorescence must be on the order of 0.1 psec. Given the large quantum yield for isomerization of rhodopsin's retinal chromophore, this process is likely to correspond to the motion along retinal's C11-C12 torsional coordinate that leads to cis-trans isomerization. An empirical excited-state potential energy curve along this coordinate is derived. It is shown that subpicosecond torsional motion to highly twisted nonfluorescing regions of the potential is possible and, in fact, likely. Our results require the existence of a barrier-less excited-state potential energy curve and suggest that cis-trans isomerization occurs in <1 psec.

Idioma original	English
Páginas (desde-hasta)	4790-4794
Número de páginas	5
Publicación	Proceedings of the National Academy of Sciences of the United States of America
Volumen	81
N.º	15 I
DOI	https://doi.org/10.1073/pnas.81.15.4790
Estado	Published - 1984

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Doukas, A. G., Junnarkar, M. R., Alfano, R. R., Callender, R. H., Kakitani, T., & Honig, B. (1984). Fluorescence quantum yield of visual pigments: Evidence for subpicosecond isomerization rates. Proceedings of the National Academy of Sciences of the United States of America, 81(15 I), 4790-4794. https://doi.org/10.1073/pnas.81.15.4790

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title = "Fluorescence quantum yield of visual pigments: Evidence for subpicosecond isomerization rates",

abstract = "The fluorescence quantum yields (Φ(f)) for bovine and squid rhodopsins are determined. Both pigments yield similar results, with an average value for Φ(f) of 1.2 (± 0.5) x 10-5. Since the estimated radiative lifetime of rhodopsin is 5 nsec, the rate constant of the process that competes with fluorescence must be on the order of 0.1 psec. Given the large quantum yield for isomerization of rhodopsin's retinal chromophore, this process is likely to correspond to the motion along retinal's C11-C12 torsional coordinate that leads to cis-trans isomerization. An empirical excited-state potential energy curve along this coordinate is derived. It is shown that subpicosecond torsional motion to highly twisted nonfluorescing regions of the potential is possible and, in fact, likely. Our results require the existence of a barrier-less excited-state potential energy curve and suggest that cis-trans isomerization occurs in <1 psec.",

author = "Doukas, {A. G.} and Junnarkar, {M. R.} and Alfano, {R. R.} and Callender, {R. H.} and T. Kakitani and B. Honig",

year = "1984",

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T2 - Evidence for subpicosecond isomerization rates

AU - Doukas, A. G.

AU - Junnarkar, M. R.

AU - Alfano, R. R.

AU - Callender, R. H.

AU - Kakitani, T.

AU - Honig, B.

PY - 1984

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N2 - The fluorescence quantum yields (Φ(f)) for bovine and squid rhodopsins are determined. Both pigments yield similar results, with an average value for Φ(f) of 1.2 (± 0.5) x 10-5. Since the estimated radiative lifetime of rhodopsin is 5 nsec, the rate constant of the process that competes with fluorescence must be on the order of 0.1 psec. Given the large quantum yield for isomerization of rhodopsin's retinal chromophore, this process is likely to correspond to the motion along retinal's C11-C12 torsional coordinate that leads to cis-trans isomerization. An empirical excited-state potential energy curve along this coordinate is derived. It is shown that subpicosecond torsional motion to highly twisted nonfluorescing regions of the potential is possible and, in fact, likely. Our results require the existence of a barrier-less excited-state potential energy curve and suggest that cis-trans isomerization occurs in <1 psec.

AB - The fluorescence quantum yields (Φ(f)) for bovine and squid rhodopsins are determined. Both pigments yield similar results, with an average value for Φ(f) of 1.2 (± 0.5) x 10-5. Since the estimated radiative lifetime of rhodopsin is 5 nsec, the rate constant of the process that competes with fluorescence must be on the order of 0.1 psec. Given the large quantum yield for isomerization of rhodopsin's retinal chromophore, this process is likely to correspond to the motion along retinal's C11-C12 torsional coordinate that leads to cis-trans isomerization. An empirical excited-state potential energy curve along this coordinate is derived. It is shown that subpicosecond torsional motion to highly twisted nonfluorescing regions of the potential is possible and, in fact, likely. Our results require the existence of a barrier-less excited-state potential energy curve and suggest that cis-trans isomerization occurs in <1 psec.

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Fluorescence quantum yield of visual pigments: Evidence for subpicosecond isomerization rates

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