Structures of OppA and PstS from Yersinia pestis indicate variability of interactions with transmembrane domains

Mikio Tanabe, Osman Mirza, Thomas Bertrand, Helen S Atkins, Richard W Titball, So Iwata, Katherine A Brown, Bernadette Byrne

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    Abstract

    Bacterial ATP-binding cassette (ABC) transport systems couple ATP hydrolysis with the uptake and efflux of a wide range of substances across bacterial membranes. These systems are comprised of transmembrane domains, nucleotide binding domains and, in the case of uptake systems, periplasmic binding proteins responsible for binding and presentation of substrate to the transmembrane domains. In pathogenic bacteria, ABC systems are known to play roles in virulence and pathogenicity and the surface localization of some components has made them attractive targets for both vaccine and anti-infective development. Here, the crystallization of five proteins (OppA, PstS, PiuA, YrbD and CysP) from Yersinia pestis, the causative agent of plague, are reported that diffracted to resolution limits ranging from 1.6 to 5 A. The first crystal structures of ABC system components from Y. pestis, OppA and PstS, are also reported here as complexes with their substrates. Comparisons of these two structures with known structures of related proteins suggest that these proteins possess versatility in substrate recognition and variations in protein-protein interactions with their cognate transmembrane domains.
    Original languageEnglish
    JournalActa Crystallographica. Section D: Biological Crystallography
    Volume63
    Issue number11
    Pages (from-to)1185-1193
    ISSN0907-4449
    DOIs
    Publication statusPublished - 2007

    Bibliographical note

    Keywords: ATP-Binding Cassette Transporters; Amino Acid Sequence; Bacterial Proteins; Binding Sites; Carrier Proteins; Crystallization; Crystallography, X-Ray; Hydrogen Bonding; Lipoproteins; Models, Molecular; Molecular Sequence Data; Periplasmic Binding Proteins; Phosphate-Binding Proteins; Protein Conformation; Protein Structure, Tertiary; Sequence Homology, Amino Acid; Yersinia pestis

    Keywords

    • Former Faculty of Pharmaceutical Sciences

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