An atomic resolution model for assembly, architecture, and function of the Dr adhesins |
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| Authors: | Anderson Kirstine L Billington Jason Pettigrew David Cota Ernesto Simpson Peter Roversi Pietro Chen Ho An Urvil Petri du Merle Laurence Barlow Paul N Medof M Edward Smith Richard A G Nowicki Bogdan Le Bouguénec Chantal Lea Susan M Matthews Stephen |
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| Affiliation: | Department of Biological Sciences, Wolfson Laboratories, Imperial College London, South Kensington, London SW7 2AZ, United Kingdom. |
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| Abstract: | Pathogenic bacteria possess adhesion protein complexes that play essential roles in targeting host cells and in propagating infection. Although each family of adhesion proteins is generally associated with a specific human disease, the Dr family from Escherichia coli is a notable exception, as its members are associated with both diarrheal and urinary tract infections. These proteins are reported to form both fimbrial and afimbrial structures at the bacterial cell surface and target a common host cell receptor, the decay-accelerating factor (DAF or CD55). Using the newly solved three-dimensional structure of AfaE, we have constructed a robust atomic resolution model that reveals the structural basis for assembly by donor strand complementation and for the architecture of capped surface fibers. |
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