Author
Listed:
- Wataru Shihoya
(The University of Tokyo)
- Keiichi Inoue
(Nagoya Institute of Technology
Nagoya Institute of Technology
The University of Tokyo
PRESTO, Japan Science and Technology Agency)
- Manish Singh
(Nagoya Institute of Technology)
- Masae Konno
(Nagoya Institute of Technology)
- Shoko Hososhima
(Nagoya Institute of Technology)
- Keitaro Yamashita
(The University of Tokyo
RIKEN SPring-8 Center)
- Kento Ikeda
(Kanazawa University)
- Akimitsu Higuchi
(The University of Tokyo)
- Tamaki Izume
(The University of Tokyo)
- Sae Okazaki
(The University of Tokyo)
- Masanori Hashimoto
(Nagoya Institute of Technology)
- Ritsu Mizutori
(Nagoya Institute of Technology)
- Sahoko Tomida
(Nagoya Institute of Technology)
- Yumeka Yamauchi
(Nagoya Institute of Technology)
- Rei Abe-Yoshizumi
(Nagoya Institute of Technology)
- Kota Katayama
(Nagoya Institute of Technology
Nagoya Institute of Technology)
- Satoshi P. Tsunoda
(Nagoya Institute of Technology
PRESTO, Japan Science and Technology Agency)
- Mikihiro Shibata
(Kanazawa University
Kanazawa University)
- Yuji Furutani
(Nagoya Institute of Technology
Institute for Molecular Science, National Institutes of Natural Sciences
The Graduate University for Advanced Studies (SOKENDAI))
- Alina Pushkarev
(Technion–Israel Institute of Technology)
- Oded Béjà
(Technion–Israel Institute of Technology)
- Takayuki Uchihashi
(Nagoya University
National Institutes of Natural Sciences)
- Hideki Kandori
(Nagoya Institute of Technology
Nagoya Institute of Technology)
- Osamu Nureki
(The University of Tokyo)
Abstract
Heliorhodopsins (HeRs) are a family of rhodopsins that was recently discovered using functional metagenomics1. They are widely present in bacteria, archaea, algae and algal viruses2,3. Although HeRs have seven predicted transmembrane helices and an all-trans retinal chromophore as in the type-1 (microbial) rhodopsin, they display less than 15% sequence identity with type-1 and type-2 (animal) rhodopsins. HeRs also exhibit the reverse orientation in the membrane compared with the other rhodopsins. Owing to the lack of structural information, little is known about the overall fold and the photoactivation mechanism of HeRs. Here we present the 2.4-Å-resolution structure of HeR from an uncultured Thermoplasmatales archaeon SG8-52-1 (GenBank sequence ID LSSD01000000). Structural and biophysical analyses reveal the similarities and differences between HeRs and type-1 microbial rhodopsins. The overall fold of HeR is similar to that of bacteriorhodopsin. A linear hydrophobic pocket in HeR accommodates a retinal configuration and isomerization as in the type-1 rhodopsin, although most of the residues constituting the pocket are divergent. Hydrophobic residues fill the space in the extracellular half of HeR, preventing the permeation of protons and ions. The structure reveals an unexpected lateral fenestration above the β-ionone ring of the retinal chromophore, which has a critical role in capturing retinal from environment sources. Our study increases the understanding of the functions of HeRs, and the structural similarity and diversity among the microbial rhodopsins.
Suggested Citation
Wataru Shihoya & Keiichi Inoue & Manish Singh & Masae Konno & Shoko Hososhima & Keitaro Yamashita & Kento Ikeda & Akimitsu Higuchi & Tamaki Izume & Sae Okazaki & Masanori Hashimoto & Ritsu Mizutori & , 2019.
"Crystal structure of heliorhodopsin,"
Nature, Nature, vol. 574(7776), pages 132-136, October.
Handle:
RePEc:nat:nature:v:574:y:2019:i:7776:d:10.1038_s41586-019-1604-6
DOI: 10.1038/s41586-019-1604-6
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