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Two (completely) rate-limiting steps in one metabolic pathway? The resolution of a paradox using bacteriorhodopsin liposomes and the control theory

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Bioscience Reports

Abstract

Proton pumping by bacteriorhodopsin and chargecompensating ion movement can both and simultaneously behave as the rate-limiting step in light-driven proton uptake into bacteriorhodopsin liposomes. This apparently excessive control exerted on the net proton influx is possible because of the negative (−1) ‘control coefficient’ of the net proton influx with respect to the proton leaks. Furthermore, the property of bacteriorhodopsin that it is inhibited by the membrane potential is responsible for the transfer of part of the control on the net proton influx from the first, irreversible, step in the pathway (i.e. bacteriorhodopsin) to the second, reversible, step ( i.e., charge-compensating ion movement).

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Author notes

  1. Hans V. Westerhoff

    Present address: Laboratory of Molecular Biology, National Institute of Arthritis, Diabetes, and Digestive and Kidney Diseases, National Institutes of Health, Building 2, Room 319, 20205, Bethesda, MD, USA

Authors and Affiliations

  1. Laboratory of Biochemistry, B.C.P. Jansen Institute, University of Amsterdam, P.O. Box 20151, 1000 HD, Amsterdam, The Netherlands

    Hans V. Westerhoff & Jos C. Arents

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  1. Hans V. Westerhoff
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  2. Jos C. Arents
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Westerhoff, H.V., Arents, J.C. Two (completely) rate-limiting steps in one metabolic pathway? The resolution of a paradox using bacteriorhodopsin liposomes and the control theory. Biosci Rep 4, 23–31 (1984). https://doi.org/10.1007/BF01120820

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  • DOI: https://doi.org/10.1007/BF01120820

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