Structural insights into light harvesting by antenna-containing rhodopsins in marine Asgard archaea

Gali Tzlil; María del Carmen Marín; Yuma Matsuzaki; Probal Nag; Shota Itakura; Yosuke Mizuno; Shunya Murakoshi; Tatsuki Tanaka; Shirley Larom; Masae Konno; Rei Abe-Yoshizumi; Ana Molina-Márquez; Daniela Bárcenas-Pérez; José Cheel; Michal Koblížek; Rosa León; Kota Katayama; Hideki Kandori; Igor Schapiro; Wataru Shihoya; Osamu Nureki; Keiichi Inoue; Andrey Rozenberg; Ariel Chazan; Oded Béjà

doi:10.1038/s41564-025-02016-5

Structural insights into light harvesting by antenna-containing rhodopsins in marine Asgard archaea

Gali Tzlil, María del Carmen Marín, Yuma Matsuzaki, Probal Nag, Shota Itakura, Yosuke Mizuno, Shunya Murakoshi, Tatsuki Tanaka, Shirley Larom, Masae Konno, Rei Abe-Yoshizumi, Ana Molina-Márquez, Daniela Bárcenas-Pérez, José Cheel, Michal Koblížek, Rosa León, Kota Katayama, Hideki Kandori, Igor Schapiro, Wataru Shihoya^*Osamu Nureki^*, Keiichi Inoue^*, Andrey Rozenberg^*, Ariel Chazan^*, Oded Béjà^*

^*Corresponding author for this work

Institute of Chemistry

Research output: Contribution to journal › Article › peer-review

Abstract

Aquatic bacterial rhodopsin proton pumps harvest light energy for photoheterotrophic growth and are known to contain hydroxylated carotenoids that expand the wavelengths of light utilized, but these have not been characterized in marine archaea. Here, by combining a marine chromophore extract with purified archaeal rhodopsins identified in marine metagenomes, we show light energy transfer from diverse hydroxylated carotenoids to heimdallarchaeial rhodopsins (HeimdallRs) from uncultured marine planktonic members of ‘Candidatus Kariarchaeaceae’ (‘Candidatus Asgardarchaeota’). These light-harvesting antennas absorb in the blue-light range and transfer energy to the green-light-absorbing retinal chromophore within HeimdallRs, enabling the use of light that is otherwise unavailable to the rhodopsin. Furthermore, we show elevated proton pumping by the antennas in HeimdallRs under white-light illumination, which better simulates the light conditions encountered by these archaea in their natural habitats. Our results indicate that light-harvesting antennas in microbial rhodopsins exist in families beyond xanthorhodopsins and proteorhodopsins and are present in both marine bacteria and archaea.

Original language	English
Article number	e2211018119
Journal	Nature Microbiology
DOIs	https://doi.org/10.1038/s41564-025-02016-5
State	Accepted/In press - 2025

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Tzlil, G., Marín, M. D. C., Matsuzaki, Y., Nag, P., Itakura, S., Mizuno, Y., Murakoshi, S., Tanaka, T., Larom, S., Konno, M., Abe-Yoshizumi, R., Molina-Márquez, A., Bárcenas-Pérez, D., Cheel, J., Koblížek, M., León, R., Katayama, K., Kandori, H., Schapiro, I., ... Béjà, O. (Accepted/In press). Structural insights into light harvesting by antenna-containing rhodopsins in marine Asgard archaea. Nature Microbiology, Article e2211018119. https://doi.org/10.1038/s41564-025-02016-5

@article{f2c93664152f41fd9cd0268264018d10,

title = "Structural insights into light harvesting by antenna-containing rhodopsins in marine Asgard archaea",

abstract = "Aquatic bacterial rhodopsin proton pumps harvest light energy for photoheterotrophic growth and are known to contain hydroxylated carotenoids that expand the wavelengths of light utilized, but these have not been characterized in marine archaea. Here, by combining a marine chromophore extract with purified archaeal rhodopsins identified in marine metagenomes, we show light energy transfer from diverse hydroxylated carotenoids to heimdallarchaeial rhodopsins (HeimdallRs) from uncultured marine planktonic members of {\textquoteleft}Candidatus Kariarchaeaceae{\textquoteright} ({\textquoteleft}Candidatus Asgardarchaeota{\textquoteright}). These light-harvesting antennas absorb in the blue-light range and transfer energy to the green-light-absorbing retinal chromophore within HeimdallRs, enabling the use of light that is otherwise unavailable to the rhodopsin. Furthermore, we show elevated proton pumping by the antennas in HeimdallRs under white-light illumination, which better simulates the light conditions encountered by these archaea in their natural habitats. Our results indicate that light-harvesting antennas in microbial rhodopsins exist in families beyond xanthorhodopsins and proteorhodopsins and are present in both marine bacteria and archaea.",

author = "Gali Tzlil and Mar{\'i}n, {Mar{\'i}a del Carmen} and Yuma Matsuzaki and Probal Nag and Shota Itakura and Yosuke Mizuno and Shunya Murakoshi and Tatsuki Tanaka and Shirley Larom and Masae Konno and Rei Abe-Yoshizumi and Ana Molina-M{\'a}rquez and Daniela B{\'a}rcenas-P{\'e}rez and Jos{\'e} Cheel and Michal Kobl{\'i}{\v z}ek and Rosa Le{\'o}n and Kota Katayama and Hideki Kandori and Igor Schapiro and Wataru Shihoya and Osamu Nureki and Keiichi Inoue and Andrey Rozenberg and Ariel Chazan and Oded B{\'e}j{\`a}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

doi = "10.1038/s41564-025-02016-5",

language = "אנגלית",

journal = "Nature Microbiology",

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Tzlil, G, Marín, MDC, Matsuzaki, Y, Nag, P, Itakura, S, Mizuno, Y, Murakoshi, S, Tanaka, T, Larom, S, Konno, M, Abe-Yoshizumi, R, Molina-Márquez, A, Bárcenas-Pérez, D, Cheel, J, Koblížek, M, León, R, Katayama, K, Kandori, H, Schapiro, I, Shihoya, W, Nureki, O, Inoue, K, Rozenberg, A, Chazan, A & Béjà, O 2025, 'Structural insights into light harvesting by antenna-containing rhodopsins in marine Asgard archaea', Nature Microbiology. https://doi.org/10.1038/s41564-025-02016-5

TY - JOUR

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AU - Tzlil, Gali

AU - Marín, María del Carmen

AU - Matsuzaki, Yuma

AU - Nag, Probal

AU - Itakura, Shota

AU - Mizuno, Yosuke

AU - Murakoshi, Shunya

AU - Tanaka, Tatsuki

AU - Larom, Shirley

AU - Konno, Masae

AU - Abe-Yoshizumi, Rei

AU - Molina-Márquez, Ana

AU - Bárcenas-Pérez, Daniela

AU - Cheel, José

AU - Koblížek, Michal

AU - León, Rosa

AU - Katayama, Kota

AU - Kandori, Hideki

AU - Schapiro, Igor

AU - Shihoya, Wataru

AU - Nureki, Osamu

AU - Inoue, Keiichi

AU - Rozenberg, Andrey

AU - Chazan, Ariel

AU - Béjà, Oded

PY - 2025

Y1 - 2025

N2 - Aquatic bacterial rhodopsin proton pumps harvest light energy for photoheterotrophic growth and are known to contain hydroxylated carotenoids that expand the wavelengths of light utilized, but these have not been characterized in marine archaea. Here, by combining a marine chromophore extract with purified archaeal rhodopsins identified in marine metagenomes, we show light energy transfer from diverse hydroxylated carotenoids to heimdallarchaeial rhodopsins (HeimdallRs) from uncultured marine planktonic members of ‘Candidatus Kariarchaeaceae’ (‘Candidatus Asgardarchaeota’). These light-harvesting antennas absorb in the blue-light range and transfer energy to the green-light-absorbing retinal chromophore within HeimdallRs, enabling the use of light that is otherwise unavailable to the rhodopsin. Furthermore, we show elevated proton pumping by the antennas in HeimdallRs under white-light illumination, which better simulates the light conditions encountered by these archaea in their natural habitats. Our results indicate that light-harvesting antennas in microbial rhodopsins exist in families beyond xanthorhodopsins and proteorhodopsins and are present in both marine bacteria and archaea.

AB - Aquatic bacterial rhodopsin proton pumps harvest light energy for photoheterotrophic growth and are known to contain hydroxylated carotenoids that expand the wavelengths of light utilized, but these have not been characterized in marine archaea. Here, by combining a marine chromophore extract with purified archaeal rhodopsins identified in marine metagenomes, we show light energy transfer from diverse hydroxylated carotenoids to heimdallarchaeial rhodopsins (HeimdallRs) from uncultured marine planktonic members of ‘Candidatus Kariarchaeaceae’ (‘Candidatus Asgardarchaeota’). These light-harvesting antennas absorb in the blue-light range and transfer energy to the green-light-absorbing retinal chromophore within HeimdallRs, enabling the use of light that is otherwise unavailable to the rhodopsin. Furthermore, we show elevated proton pumping by the antennas in HeimdallRs under white-light illumination, which better simulates the light conditions encountered by these archaea in their natural habitats. Our results indicate that light-harvesting antennas in microbial rhodopsins exist in families beyond xanthorhodopsins and proteorhodopsins and are present in both marine bacteria and archaea.

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Structural insights into light harvesting by antenna-containing rhodopsins in marine Asgard archaea

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