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   https://doi.org/10.3390/biom14010135  

   Nielsen, Hang N. ; Holm, Rikke ; Sweazey, Ryan ; Andersen, Jens Peter ; Artigas, Pablo ; Vilsen, Bente ( January 2024 , Biomolecules)

   Na+,K+-ATPase actively extrudes three cytoplasmic Na+ ions in exchange for two extracellular K+ ions for each ATP hydrolyzed. The atomic structure with bound Na+ identifies three Na+ sites, named I, II, and III. It has been proposed that site III is the first to be occupied and site II last, when Na+ binds from the cytoplasmic side. It is usually assumed that the occupation of all three Na+ sites is obligatory for the activation of phosphoryl transfer from ATP. To obtain more insight into the individual roles of the ion-binding sites, we have analyzed a series of seven mutants with substitution of the critical ion-binding residue Ser777, which is a shared ligand between Na+ sites I and III. Surprisingly, mutants with large and bulky substituents expected to prevent or profoundly disturb Na+ access to sites I and III retain the ability to form a phosphoenzyme from ATP, even with increased apparent Na+ affinity. This indicates that Na+ binding solely at site II is sufficient to promote phosphorylation. These mutations appear to lock the membrane sector into an E1-like configuration, allowing Na+ but not K+ to bind at site II, while the cytoplasmic sector undergoes conformational changes uncoupled from the membrane sector.

    

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2. Revealing the Fast and Durable Na + Insertion Reactions in a Layered Na 3 Fe 3 (PO 4 ) 4 Anode for Aqueous Na-Ion Batteries

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   Qiu, Shen ; Lucero, Marcos ; Wu, Xianyong ; Wang, Qi ; Wang, Maoyu ; Wang, Yan ; Samarakoon, Widitha S. ; Bolding, Meilani R. ; Yang, Zhenzhen ; Huang, Yaqin ; et al ( October 2021 , ACS Materials Au)
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   Singh, G. ; Shubhchintak ; Chatterjee, R. ( June 2017 , Physical Review C)
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   https://doi.org/10.1103/PhysRevMaterials.4.045406  

   Li, Yan ; Hood, Zachary D. ; Holzwarth, N. A. ( April 2020 , Physical Review Materials)

   null (Ed.)
5. Fast Na diffusion and anharmonic phonon dynamics in superionic Na 3 PS 4

   https://doi.org/10.1039/D1EE01509E  

   Gupta, Mayanak K. ; Ding, Jingxuan ; Osti, Naresh C. ; Abernathy, Douglas L. ; Arnold, William ; Wang, Hui ; Hood, Zachary ; Delaire, Olivier ( December 2021 , Energy & Environmental Science)

   Strongly anharmonic low-energy phonons enable the fast diffusion of Na ions in the solid-state electrolyte compound Na₃PS₄.

    

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