Download MendeleyLight-driven Anion-Pumping Rhodopsin with Unique Cytoplasmic Anion-release Mechanism.
Ishizuka, T., Suzuki, K., Konno, M., Shibata, K., Kawasaki, Y., Akiyama, H., Murata, T., Inoue, K.(2024) J Biol Chem : 107797-107797
- PubMed: 39305959
- DOI: https://doi.org/10.1016/j.jbc.2024.107797
- Primary Citation of Related Structures:
8XX8 - PubMed Abstract:
Microbial rhodopsins are photoreceptive membrane proteins found in microorganisms with an all-trans-retinal chromophore. The function of many microbial rhodopsins is determined by three residues in the third transmembrane helix called motif residues. Here, we report a group of microbial rhodopsins with a novel Thr-Thr-Gly (TTG) motif. The ion-transport assay revealed that they function as light-driven inward anion pumps similar to halorhodopsins previously found in archaea and bacteria. Based on the characteristic glycine residue in their motif and light-driven anion-pumping function, these new rhodopsins are called glycylhalorhodopsins (GHRs). X-ray crystallographic analysis found large cavities on the cytoplasmic side, which are produced by the small side-chain volume of the glycine residue in the motif. The opened structure of GHR on the cytoplasmic side is related to the anion releasing process to the cytoplasm during the photoreaction compared to canonical halorhodopsin from Natronomonas pharaonis (NpHR). GHR also transports SO 4 2- and the extracellular glutamate residue plays an essential role in extracellular SO 4 2- uptake. In summary, we have identified TTG motif-containing microbial rhodopsins that display an anion-releasing mechanism.
Organizational Affiliation:
The Institute for Solid State Physics, The University of Tokyo, Chiba, Japan.
