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A cytosolic trans-activation domain essential for ammonium uptake

Author

Listed:
  • D. Loqué

    (Carnegie Institution, 260 Panama St, Stanford, California 94305, USA)

  • S. Lalonde

    (Carnegie Institution, 260 Panama St, Stanford, California 94305, USA)

  • L. L. Looger

    (Carnegie Institution, 260 Panama St, Stanford, California 94305, USA)

  • N. von Wirén

    (Institute for Plant Nutrition, University of Hohenheim, Stuttgart 70593, Germany)

  • W. B. Frommer

    (Carnegie Institution, 260 Panama St, Stanford, California 94305, USA)

Abstract

Polytopic membrane proteins are essential for cellular uptake and release of nutrients. To prevent toxic accumulation, rapid shut-off mechanisms are required. Here we show that the soluble cytosolic carboxy terminus of an oligomeric ammonium transporter from Arabidopsis thaliana serves as an allosteric regulator essential for function; mutations in the C-terminal domain, conserved between bacteria, fungi and plants, led to loss of transport activity. When co-expressed with intact transporters, mutants inactivated functional subunits, but left their stability unaffected. Co-expression of two inactive transporters, one with a defective pore, the other with an ablated C terminus, reconstituted activity. The crystal structure of an Archaeoglobus fulgidus ammonium transporter (AMT)1 suggests that the C terminus interacts physically with cytosolic loops of the neighbouring subunit. Phosphorylation of conserved sites in the C terminus2 are proposed as the cognate control mechanism. Conformational coupling between monomers provides a mechanism for tight regulation, for increasing the dynamic range of sensing and memorizing prior events, and may be a general mechanism for transporter regulation.

Suggested Citation

  • D. Loqué & S. Lalonde & L. L. Looger & N. von Wirén & W. B. Frommer, 2007. "A cytosolic trans-activation domain essential for ammonium uptake," Nature, Nature, vol. 446(7132), pages 195-198, March.
    • Handle: RePEc:nat:nature:v:446:y:2007:i:7132:d:10.1038_nature05579
    DOI: 10.1038/nature05579
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    Cited by:

    1. Yawen Li & Yinan Ding & Lili Qu & Xinru Li & Qinxuan Lai & Pingxia Zhao & Yongxiang Gao & Chengbin Xiang & Chunlei Cang & Xin Liu & Linfeng Sun, 2022. "Structure of the Arabidopsis guard cell anion channel SLAC1 suggests activation mechanism by phosphorylation," Nature Communications, Nature, vol. 13(1), pages 1-9, December.

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