Litcius/Paper detail

Processive dynamics of the usher assembly platform during uropathogenic Escherichia coli P pilus biogenesis

Minge Du, Zuanning Yuan, Glenn T. Werneburg, Nadine S. Henderson, H.V.S. Chauhan, Amanda Kovach, Gongpu Zhao, Jessica Johl, Huilin Li, David G. Thanassi

2021Nature Communications23 citationsDOIOpen Access PDF

Abstract

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.

Topics & Concepts

PilusBiogenesisFimbriaFimbriae ProteinsChaperone (clinical)Escherichia coliBiologyCell biologyProtein subunitMicrobiologyBiophysicsBiochemistryGeneMedicinePathologyEscherichia coli research studiesEnzyme Structure and FunctionBacterial Genetics and Biotechnology