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Structural and mechanistic analysis of a tripartite ATP-independent periplasmic TRAP transporter

Author

Listed:
  • Martin F. Peter

    (University of Bonn)

  • Jan A. Ruland

    (University of Bonn)

  • Peer Depping

    (University of Bonn
    Aston Centre for Membrane Proteins and Lipids Research)

  • Niels Schneberger

    (University of Bonn)

  • Emmanuele Severi

    (University of York
    Newcastle University)

  • Jonas Moecking

    (University of Bonn)

  • Karl Gatterdam

    (University of Bonn)

  • Sarah Tindall

    (University of York)

  • Alexandre Durand

    (Institut de Génétique et de Biologie Molecule et Cellulaire)

  • Veronika Heinz

    (University of Regensburg)

  • Jan Peter Siebrasse

    (University of Bonn)

  • Paul-Albert Koenig

    (University of Bonn)

  • Matthias Geyer

    (University of Bonn)

  • Christine Ziegler

    (University of Regensburg)

  • Ulrich Kubitscheck

    (University of Bonn)

  • Gavin H. Thomas

    (University of York)

  • Gregor Hagelueken

    (University of Bonn)

Abstract

Tripartite ATP-independent periplasmic (TRAP) transporters are found widely in bacteria and archaea and consist of three structural domains, a soluble substrate-binding protein (P-domain), and two transmembrane domains (Q- and M-domains). HiSiaPQM and its homologs are TRAP transporters for sialic acid and are essential for host colonization by pathogenic bacteria. Here, we reconstitute HiSiaQM into lipid nanodiscs and use cryo-EM to reveal the structure of a TRAP transporter. It is composed of 16 transmembrane helices that are unexpectedly structurally related to multimeric elevator-type transporters. The idiosyncratic Q-domain of TRAP transporters enables the formation of a monomeric elevator architecture. A model of the tripartite PQM complex is experimentally validated and reveals the coupling of the substrate-binding protein to the transporter domains. We use single-molecule total internal reflection fluorescence (TIRF) microscopy in solid-supported lipid bilayers and surface plasmon resonance to study the formation of the tripartite complex and to investigate the impact of interface mutants. Furthermore, we characterize high-affinity single variable domains on heavy chain (VHH) antibodies that bind to the periplasmic side of HiSiaQM and inhibit sialic acid uptake, providing insight into how TRAP transporter function might be inhibited in vivo.

Suggested Citation

  • Martin F. Peter & Jan A. Ruland & Peer Depping & Niels Schneberger & Emmanuele Severi & Jonas Moecking & Karl Gatterdam & Sarah Tindall & Alexandre Durand & Veronika Heinz & Jan Peter Siebrasse & Paul, 2022. "Structural and mechanistic analysis of a tripartite ATP-independent periplasmic TRAP transporter," Nature Communications, Nature, vol. 13(1), pages 1-15, December.
  • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-31907-y
    DOI: 10.1038/s41467-022-31907-y
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    1. James S. Davies & Michael J. Currie & Rachel A. North & Mariafrancesca Scalise & Joshua D. Wright & Jack M. Copping & Daniela M. Remus & Ashutosh Gulati & Dustin R. Morado & Sam A. Jamieson & Michael , 2023. "Structure and mechanism of a tripartite ATP-independent periplasmic TRAP transporter," Nature Communications, Nature, vol. 14(1), pages 1-12, December.
    2. Martin F. Peter & Jan A. Ruland & Yeojin Kim & Philipp Hendricks & Niels Schneberger & Jan Peter Siebrasse & Gavin H. Thomas & Ulrich Kubitscheck & Gregor Hagelueken, 2024. "Conformational coupling of the sialic acid TRAP transporter HiSiaQM with its substrate binding protein HiSiaP," Nature Communications, Nature, vol. 15(1), pages 1-12, December.

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