Probing the Ultrafast Charge Translocation of Photoexcited Retinal in Bacteriorhodopsin

Probing the Ultrafast Charge Translocation of Photoexcited Retinal in Bacteriorhodopsin

The ultrafast evolution of the electric field within bacteriorhodopsin was measured by monitoring the absorption changes of a tryptophan residue after excitation of retinal. The Trp absorption decreases within the first 200 femtoseconds and then recovers on time scales typical for retinal isomerizat...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2005-08, Vol.309 (5736), p.917-920
Hauptverfasser: Schenkl, S, van Mourik, F, van der Zwan, G, Haacke, S, Chergui, M
Format: Artikel
Sprache:eng
Schlagworte:
Absorption rates
Absorption spectra
Amplitude
Bacteriorhodopsin
Bacteriorhodopsins
Bacteriorhodopsins - chemistry
Biological and medical sciences
Chemical compounds
Chemical properties
Chromophores
Electric fields
Electric properties
Electrochemistry
Fundamental and applied biological sciences. Psychology
Ground state
Isomerization
Molecular biophysics
Molecular relaxation
Molecular weight
Photochemistry
Pigments
Protein Conformation
Retina
Retinaldehyde - chemistry
Spectral sensitivity
Tryptophan - chemistry
Wavelengths
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Beschreibung
Zusammenfassung:The ultrafast evolution of the electric field within bacteriorhodopsin was measured by monitoring the absorption changes of a tryptophan residue after excitation of retinal. The Trp absorption decreases within the first 200 femtoseconds and then recovers on time scales typical for retinal isomerization and vibrational relaxation. A model of excitonic coupling between retinal and tryptophans shows that the signal reflects a gradual rise of the retinal difference dipole moment, which precedes and probably drives isomerization. The results suggest an intimate connection between the progressive dipole moment change and the retinal skeletal changes reported over the same time scale.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1111482