Crystal structures of various maltooligosaccharides bound to maltoporin reveal a specific sugar translocation pathway

Background: Maltoporin (which is encoded by the lamB gene) facilitates the translocation of maltodextrins across the outer membrane of E. coli. In particular, it is indispensable for the transport of long maltooligosaccharides, as these do not pass through non-specific porins. An understanding of th...

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Veröffentlicht in:Structure (London) 1996-02, Vol.4 (2), p.127-134
Hauptverfasser: Dutzler, R, Wang, Y-F, Rizkallah, PJ, Rosenbusch, JP, Schirmer, T
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Sprache:eng
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Zusammenfassung:Background: Maltoporin (which is encoded by the lamB gene) facilitates the translocation of maltodextrins across the outer membrane of E. coli. In particular, it is indispensable for the transport of long maltooligosaccharides, as these do not pass through non-specific porins. An understanding of this intriguing capability requires elucidation of the structural basis. Results The crystal structures of maltoporin in complex with maltose, maltotriose and maltohexaose reveal an extended binding site within the maltoporin channel. The maltooligosaccharides are in apolar van der Waals contact with the ‘greasy slide’, a hydrophobic path that is composed of aromatic residues and located at the channel lining. At the constriction of the channel the sugars are tightly surrounded by protein side chains and form an extensive hydrogen-bonding network with ionizable amino-acid residues. Conclusion Hydrophobic interactions with the greasy slide guide the sugar into and through the channel constriction. The glucosyl-binding subsites at the channel constriction confer stereospecificity to the channel along with the ability to scavenge substrate at low concentrations.
ISSN:0969-2126
1878-4186
DOI:10.1016/S0969-2126(96)00016-0