Ion Binding and Selectivity of the Na+/H+ Antiporter MjNhaP1 from Experiment 
and Simulation

Warnau, Judith; Wöhlert, David; Okazaki, Kei-Ichi; Yildiz, Özkan; Gamiz-Hernandez, Ana P.; Kaila, Ville R. I.; Kühlbrandt, Werner; Hummer, Gerhard

doi:10.1021/acs.jpcb.9b08552

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Ion Binding and Selectivity of the Na⁺/H⁺ Antiporter MjNhaP1 from Experiment and Simulation

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Warnau, Judith
Department of Theoretical Biophysics, Max Planck Institute of Biophysics, Max Planck Society;
Department Chemie, Technische Universität München, Garching, Germany;

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Wöhlert, David
Department of Structural Biology, Max Planck Institute of Biophysics, Max Planck Society;

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Yildiz, Özkan
Department of Structural Biology, Max Planck Institute of Biophysics, Max Planck Society;

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Kühlbrandt, Werner
Department of Structural Biology, Max Planck Institute of Biophysics, Max Planck Society;

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Hummer, Gerhard
Department of Theoretical Biophysics, Max Planck Institute of Biophysics, Max Planck Society;
Insitute of Biophysics, Goethe University Frankfurt, Frankfurt am Main, Germany;

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Zitation

Warnau, J., Wöhlert, D., Okazaki, K.-I., Yildiz, Ö., Gamiz-Hernandez, A. P., Kaila, V. R. I., et al. (2020). Ion Binding and Selectivity of the Na⁺/H⁺ Antiporter MjNhaP1 from Experiment and Simulation. The Journal of Physical Chemistry B, 124(2), 336-344. doi:10.1021/acs.jpcb.9b08552.

Zitierlink: https://hdl.handle.net/21.11116/0000-0005-7C66-E

Zusammenfassung

Cells employ membrane-embedded antiporter proteins to control their pH, salt concentration, and volume. The large family of cation/proton antiporters is dominated by Na⁺/H⁺ antiporters that exchange sodium ions against protons, but homologous K⁺/H⁺ exchangers have recently been characterized. We show experimentally that the electroneutral antiporter NhaP1 of Methanocaldococcus jannaschii (MjNhaP1) is highly selective for Na⁺ ions. We then characterize the ion selectivity in both the inward-open and outward-open states of MjNhaP1 using classical molecular dynamics simulations, free energy calculations, and hybrid quantum/classical (QM/MM) simulations. We show that MjNhaP1 is highly selective for binding of Na⁺ over K⁺ in the inward-open state, yet it is only weakly selective in the outward-open state. These findings are consistent with the function of MjNhaP1 as a sodium-driven deacidifier of the cytosol that maintains a high cytosolic K⁺ concentration in environments of high salinity. By combining experiment and computation, we gain mechanistic insight into the Na⁺/H⁺ transport mechanism and help elucidate the molecular basis for ion selectivity in cation/proton exchangers.