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Transporter characterisation reveals aminoethylphosphonate mineralisation as a key step in the marine phosphorus redox cycle

Author

Listed:
  • Andrew R. J. Murphy

    (School of Life Sciences, University of Warwick, Gibbet Hill Road)

  • David J. Scanlan

    (School of Life Sciences, University of Warwick, Gibbet Hill Road)

  • Yin Chen

    (School of Life Sciences, University of Warwick, Gibbet Hill Road)

  • Nathan B. P. Adams

    (University of Sheffield
    Nanotemper Technologies GmbH, Flößergasse 4)

  • William A. Cadman

    (University of Sheffield)

  • Andrew Bottrill

    (School of Life Sciences, University of Warwick, Gibbet Hill Road)

  • Gary Bending

    (School of Life Sciences, University of Warwick, Gibbet Hill Road)

  • John P. Hammond

    (School of Agriculture, Policy, and Development, University of Reading, Earley Gate, Whiteknights)

  • Andrew Hitchcock

    (University of Sheffield)

  • Elizabeth M. H. Wellington

    (School of Life Sciences, University of Warwick, Gibbet Hill Road)

  • Ian D. E. A. Lidbury

    (University of Sheffield)

Abstract

The planktonic synthesis of reduced organophosphorus molecules, such as alkylphosphonates and aminophosphonates, represents one half of a vast global oceanic phosphorus redox cycle. Whilst alkylphosphonates tend to accumulate in recalcitrant dissolved organic matter, aminophosphonates do not. Here, we identify three bacterial 2-aminoethylphosphonate (2AEP) transporters, named AepXVW, AepP and AepSTU, whose synthesis is independent of phosphate concentrations (phosphate-insensitive). AepXVW is found in diverse marine heterotrophs and is ubiquitously distributed in mesopelagic and epipelagic waters. Unlike the archetypal phosphonate binding protein, PhnD, AepX has high affinity and high specificity for 2AEP (Stappia stellulata AepX Kd 23 ± 4 nM; methylphosphonate Kd 3.4 ± 0.3 mM). In the global ocean, aepX is heavily transcribed (~100-fold>phnD) independently of phosphate and nitrogen concentrations. Collectively, our data identifies a mechanism responsible for a major oxidation process in the marine phosphorus redox cycle and suggests 2AEP may be an important source of regenerated phosphate and ammonium, which are required for oceanic primary production.

Suggested Citation

  • Andrew R. J. Murphy & David J. Scanlan & Yin Chen & Nathan B. P. Adams & William A. Cadman & Andrew Bottrill & Gary Bending & John P. Hammond & Andrew Hitchcock & Elizabeth M. H. Wellington & Ian D. E, 2021. "Transporter characterisation reveals aminoethylphosphonate mineralisation as a key step in the marine phosphorus redox cycle," Nature Communications, Nature, vol. 12(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-24646-z
    DOI: 10.1038/s41467-021-24646-z
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