Uropathogenic Escherichia coli assemble surface structures termed pili or fimbriae to initiate infection of the urinary tract. P pili facilitate bacterial colonization of the kidney and pyelonephritis. P pili are assembled through the conserved chaperone-usher pathway. Much of the structural and functional understanding of the chaperone-usher pathway has been gained through investigations of type 1 pili, which promote binding to the bladder and cystitis. In contrast, the structural basis for P pilus biogenesis at the usher has remained elusive. This is in part due to the flexible and variable-length P pilus tip fiber, creating structural heterogeneity, and difficulties isolating stable P pilus assembly intermediates. Here, we circumvent these hindrances and determine cryo-electron microscopy structures of the activated PapC usher in the process of secreting two- and three-subunit P pilus assembly intermediates, revealing processive steps in P pilus biogenesis and capturing new conformational dynamics of the usher assembly machine.
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| http://dx.doi.org/10.1038/s41467-021-25522-6 | DOI Listing |
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Article Synopsis
- Pili, or fimbriae, are unique proteins made of linked subunits that are found on the surface of gram-positive bacteria, assembled by an enzyme called sortase.
- These proteins are important for a variety of functions, including adhesion to surfaces, immune system interaction, and roles in disease-causing abilities of bacteria.
- The review discusses ongoing research into how pili are formed, their functions, potential applications in vaccines, and the future of this area of study.
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