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Surface of bacteriorhodopsin revealed by high-resolution electron crystallography

Author

Listed:
  • Yoshiaki Kimura

    (Biomolecular Engineering Research Institute (formerly Protein Engineering Institute))

  • Dmitry G. Vassylyev

    (Biomolecular Engineering Research Institute (formerly Protein Engineering Institute)
    Faculty of Science, Kyoto University, Oiwake Kitashirakawa
    Matsushita Electric Industrial Co., Ltd.)

  • Atsuo Miyazawa

    (Biomolecular Engineering Research Institute (formerly Protein Engineering Institute)
    Faculty of Science, Kyoto University, Oiwake Kitashirakawa
    MRC Laboratory of Molecular Biology)

  • Akinori Kidera

    (Biomolecular Engineering Research Institute (formerly Protein Engineering Institute)
    Faculty of Science, Kyoto University, Oiwake Kitashirakawa
    Kyoto University, Oiwake Kitashirakawa)

  • Masaaki Matsushima

    (Rational Drug Design Laboratory)

  • Kaoru Mitsuoka

    (International Institute for Advanced Research, Matsushita Electric Industrial Co.)

  • Kazuyoshi Murata

    (International Institute for Advanced Research, Matsushita Electric Industrial Co.)

  • Teruhisa Hirai

    (International Institute for Advanced Research, Matsushita Electric Industrial Co.)

  • Yoshinori Fujiyoshi

    (International Institute for Advanced Research, Matsushita Electric Industrial Co.
    Faculty of Science, Kyoto University, Oiwake Kitashirakawa)

Abstract

Bacteriorhodopsin is a transmembrane protein that uses light energy, absorbed by its chromophore retinal, to pump protons from the cytoplasm of bacteria such as Halobacterium salinarium into the extracellular space1,2. It is made up of seven α-helices, and in the bacterium forms natural, two-dimensional crystals called purple membranes. We have analysed these crystals by electron cryo-microscopy to obtain images of bacteriorhodopsin at 3.0 å resolution. The structure covers nearly all 248 amino acids, including loops outside the membrane, and reveals the distribution of charged residues on both sides of the membrane surface. In addition, analysis of the electron-potential map produced by this method allows the determination of the charge status of these residues. On the extracellular side, four glutamate residues surround the entrance to the proton channel, whereas on the cytoplasmic side, four aspartic acids occur in a plane at the boundary of the hydrophobic–hydrophilic interface. The negative charges produced by these aspartate residues is encircled by areas of positive charge that may facilitate accumulation and lateral movement of protons on this surface.

Suggested Citation

  • Yoshiaki Kimura & Dmitry G. Vassylyev & Atsuo Miyazawa & Akinori Kidera & Masaaki Matsushima & Kaoru Mitsuoka & Kazuyoshi Murata & Teruhisa Hirai & Yoshinori Fujiyoshi, 1997. "Surface of bacteriorhodopsin revealed by high-resolution electron crystallography," Nature, Nature, vol. 389(6647), pages 206-211, September.
    • Handle: RePEc:nat:nature:v:389:y:1997:i:6647:d:10.1038_38323
    DOI: 10.1038/38323
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