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Coupling substrate and ion binding to extracellular gate of a sodium-dependent aspartate transporter

Author

Listed:
  • Olga Boudker

    (Columbia University
    Weill Medical College of Cornell University)

  • Renae M. Ryan

    (Columbia University
    National Institutes of Health)

  • Dinesh Yernool

    (Columbia University
    Purdue University)

  • Keiko Shimamoto

    (Suntory Institute for Bioorganic Research)

  • Eric Gouaux

    (Columbia University
    Columbia University
    Oregon Health and Science University)

Abstract

Secondary transporters are integral membrane proteins that catalyse the movement of substrate molecules across the lipid bilayer by coupling substrate transport to one or more ion gradients, thereby providing a mechanism for the concentrative uptake of substrates. Here we describe crystallographic and thermodynamic studies of GltPh, a sodium (Na+)-coupled aspartate transporter, defining sites for aspartate, two sodium ions and d,l-threo-β-benzyloxyaspartate, an inhibitor. We further show that helical hairpin 2 is the extracellular gate that controls access of substrate and ions to the internal binding sites. At least two sodium ions bind in close proximity to the substrate and these sodium-binding sites, together with the sodium-binding sites in another sodium-coupled transporter, LeuT, define an unwound α-helix as the central element of the ion-binding motif, a motif well suited to the binding of sodium and to participation in conformational changes that accompany ion binding and unbinding during the transport cycle.

Suggested Citation

  • Olga Boudker & Renae M. Ryan & Dinesh Yernool & Keiko Shimamoto & Eric Gouaux, 2007. "Coupling substrate and ion binding to extracellular gate of a sodium-dependent aspartate transporter," Nature, Nature, vol. 445(7126), pages 387-393, January.
    • Handle: RePEc:nat:nature:v:445:y:2007:i:7126:d:10.1038_nature05455
    DOI: 10.1038/nature05455
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    Cited by:

    1. Mingxing Wang & Jin He & Shanshan Li & Qianwen Cai & Kaiming Zhang & Ji She, 2023. "Structural basis of vitamin C recognition and transport by mammalian SVCT1 transporter," Nature Communications, Nature, vol. 14(1), pages 1-8, December.
    2. Biao Qiu & Olga Boudker, 2023. "Symport and antiport mechanisms of human glutamate transporters," Nature Communications, Nature, vol. 14(1), pages 1-13, December.
    3. Takafumi Kato & Tsukasa Kusakizako & Chunhuan Jin & Xinyu Zhou & Ryuichi Ohgaki & LiLi Quan & Minhui Xu & Suguru Okuda & Kan Kobayashi & Keitaro Yamashita & Tomohiro Nishizawa & Yoshikatsu Kanai & Osa, 2022. "Structural insights into inhibitory mechanism of human excitatory amino acid transporter EAAT2," Nature Communications, Nature, vol. 13(1), pages 1-11, December.
    4. Emanuela Colucci & Zaid R. Anshari & Miyer F. Patiño-Ruiz & Mariia Nemchinova & Jacob Whittaker & Dirk J. Slotboom & Albert Guskov, 2023. "Mutation in glutamate transporter homologue GltTk provides insights into pathologic mechanism of episodic ataxia 6," Nature Communications, Nature, vol. 14(1), pages 1-10, December.
    5. Zhenglai Zhang & Huiwen Chen & Ze Geng & Zhuoya Yu & Hang Li & Yanli Dong & Hongwei Zhang & Zhuo Huang & Juquan Jiang & Yan Zhao, 2022. "Structural basis of ligand binding modes of human EAAT2," Nature Communications, Nature, vol. 13(1), pages 1-10, December.
    6. David B. Sauer & Jennifer J. Marden & Joseph C. Sudar & Jinmei Song & Christopher Mulligan & Da-Neng Wang, 2022. "Structural basis of ion – substrate coupling in the Na+-dependent dicarboxylate transporter VcINDY," Nature Communications, Nature, vol. 13(1), pages 1-9, December.

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