QuasAr Odyssey: the origin of fluorescence and its voltage sensitivity in microbial rhodopsins

Authors :: Arita Silapetere
Songhwan Hwang
Yusaku Hontani
Rodrigo G. Fernandez Lahore
Jens Balke
Francisco Velazquez Escobar
Martijn Tros
Patrick E. Konold
Rainer Matis
Roberta Croce
Peter J. Walla
Peter Hildebrandt
Ulrike Alexiev
John T. M. Kennis
Han Sun
Tillmann Utesch
Peter Hegemann
Source :: Nature Communications, Vol 13, Iss 1, Pp 1-20 (2022)
Publication Year :: 2022
Publisher :: Nature Portfolio, 2022.
Abstract: The authors present an in-depth investigation of excited state dynamics and molecular mechanism of the voltage sensing in microbial rhodopsins. Using a combination of spectroscopic investigations and molecular dynamics simulations, the study proposes the voltage-modulated deprotonation of the chromophore as the key event in the voltage sensing. Thus, molecular constraints that may further improve the fluorescence quantum yield and the voltage sensitivity are presented.

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