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

Author

Listed:
  • Arita Silapetere

    (Humboldt-Universität zu Berlin)

  • Songhwan Hwang

    (Humboldt-Universität zu Berlin
    Leibniz-Institut für Molekulare Pharmakologie)

  • Yusaku Hontani

    (Vrije Universiteit Amsterdam
    University of Zurich)

  • Rodrigo G. Fernandez Lahore

    (Humboldt-Universität zu Berlin)

  • Jens Balke

    (Freie Universität Berlin)

  • Francisco Velazquez Escobar

    (Technische Universität Berlin)

  • Martijn Tros

    (Vrije Universiteit Amsterdam)

  • Patrick E. Konold

    (Vrije Universiteit Amsterdam)

  • Rainer Matis

    (Technische Universität Braunschweig)

  • Roberta Croce

    (Vrije Universiteit Amsterdam)

  • Peter J. Walla

    (Technische Universität Braunschweig)

  • Peter Hildebrandt

    (Technische Universität Berlin)

  • Ulrike Alexiev

    (Freie Universität Berlin)

  • John T. M. Kennis

    (Vrije Universiteit Amsterdam)

  • Han Sun

    (Leibniz-Institut für Molekulare Pharmakologie
    Technische Universität Berlin)

  • Tillmann Utesch

    (Leibniz-Institut für Molekulare Pharmakologie)

  • Peter Hegemann

    (Humboldt-Universität zu Berlin)

Abstract

Rhodopsins had long been considered non-fluorescent until a peculiar voltage-sensitive fluorescence was reported for archaerhodopsin-3 (Arch3) derivatives. These proteins named QuasArs have been used for imaging membrane voltage changes in cell cultures and small animals. However due to the low fluorescence intensity, these constructs require use of much higher light intensity than other optogenetic tools. To develop the next generation of sensors, it is indispensable to first understand the molecular basis of the fluorescence and its modulation by the membrane voltage. Based on spectroscopic studies of fluorescent Arch3 derivatives, we propose a unique photo-reaction scheme with extended excited-state lifetimes and inefficient photoisomerization. Molecular dynamics simulations of Arch3, of the Arch3 fluorescent derivative Archon1, and of several its mutants have revealed different voltage-dependent changes of the hydrogen-bonding networks including the protonated retinal Schiff-base and adjacent residues. Experimental observations suggest that under negative voltage, these changes modulate retinal Schiff base deprotonation and promote a decrease in the populations of fluorescent species. Finally, we identified molecular constraints that further improve fluorescence quantum yield and voltage sensitivity.

Suggested Citation

  • 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., 2022. "QuasAr Odyssey: the origin of fluorescence and its voltage sensitivity in microbial rhodopsins," Nature Communications, Nature, vol. 13(1), pages 1-20, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-33084-4
    DOI: 10.1038/s41467-022-33084-4
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    References listed on IDEAS

    as
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