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Molecular mechanism of vectorial proton translocation by bacteriorhodopsin

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  • Sriram Subramaniam

    (MRC Laboratory of Molecular Biology
    Laboratory of Biochemistry, National Cancer Institute)

  • Richard Henderson

    (MRC Laboratory of Molecular Biology)

Abstract

Bacteriorhodopsin, a membrane protein with a relative molecular mass of 27,000, is a light driven pump which transports protons across the cell membrane of the halophilic organism Halobacterium salinarum. The chromophore retinal is covalently attached to the protein via a protonated Schiff base. Upon illumination, retinal is isomerized. The Schiff base then releases a proton to the extracellular medium, and is subsequently reprotonated from the cytoplasm. An atomic model for bacteriorhodopsin was first determined by Henderson et al1, and has been confirmed and extended by work in a number of laboratories in the last few years2. Here we present an atomic model for structural changes involved in the vectorial, light-driven transport of protons by bacteriorhodopsin. A ‘switch’ mechanism ensures the vectorial nature of pumping. First, retinal unbends, triggered by loss of the Schiff base proton, and second, a protein conformational change occurs. This conformational change, which we have determined by electron crystallography at atomic (3.2 Å in-plane and 3.6 Å vertical) resolution, is largely localized to helices F and G, and provides an ‘opening’ of the protein to protons on the cytoplasmic side of the membrane.

Suggested Citation

  • Sriram Subramaniam & Richard Henderson, 2000. "Molecular mechanism of vectorial proton translocation by bacteriorhodopsin," Nature, Nature, vol. 406(6796), pages 653-657, August.
    • Handle: RePEc:nat:nature:v:406:y:2000:i:6796:d:10.1038_35020614
    DOI: 10.1038/35020614
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    Cited by:

    1. Ting Wang & Marc T Facciotti & Yong Duan, 2013. "Schiff Base Switch II Precedes the Retinal Thermal Isomerization in the Photocycle of Bacteriorhodopsin," PLOS ONE, Public Library of Science, vol. 8(7), pages 1-11, July.

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