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Handover mechanism of the growing pilus by the bacterial outer-membrane usher FimD
by
Yuan, Zuanning
, Henderson, Nadine
, Yu, Hongjun
, Thanassi, David G.
, Du, Minge
, Zhao, Gongpu
, Sarowar, Samema
, Werneburg, Glenn T.
, Li, Huilin
in
101/28
/ 631/45/173
/ 631/535/1258/1259
/ Assembly
/ Bacteria
/ Biosynthesis
/ Cryoelectron microscopy
/ Crystal structure
/ Domains
/ E coli
/ Electron microscopy
/ Escherichia coli
/ Humanities and Social Sciences
/ Immunoglobulins
/ Letter
/ Microscopy
/ multidisciplinary
/ Observations
/ Pathogens
/ Pili
/ Polymerization
/ Proteins
/ Receptors
/ Science
/ Science (multidisciplinary)
/ Structure
/ Translocation
2018
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Handover mechanism of the growing pilus by the bacterial outer-membrane usher FimD
by
Yuan, Zuanning
, Henderson, Nadine
, Yu, Hongjun
, Thanassi, David G.
, Du, Minge
, Zhao, Gongpu
, Sarowar, Samema
, Werneburg, Glenn T.
, Li, Huilin
in
101/28
/ 631/45/173
/ 631/535/1258/1259
/ Assembly
/ Bacteria
/ Biosynthesis
/ Cryoelectron microscopy
/ Crystal structure
/ Domains
/ E coli
/ Electron microscopy
/ Escherichia coli
/ Humanities and Social Sciences
/ Immunoglobulins
/ Letter
/ Microscopy
/ multidisciplinary
/ Observations
/ Pathogens
/ Pili
/ Polymerization
/ Proteins
/ Receptors
/ Science
/ Science (multidisciplinary)
/ Structure
/ Translocation
2018
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Handover mechanism of the growing pilus by the bacterial outer-membrane usher FimD
by
Yuan, Zuanning
, Henderson, Nadine
, Yu, Hongjun
, Thanassi, David G.
, Du, Minge
, Zhao, Gongpu
, Sarowar, Samema
, Werneburg, Glenn T.
, Li, Huilin
in
101/28
/ 631/45/173
/ 631/535/1258/1259
/ Assembly
/ Bacteria
/ Biosynthesis
/ Cryoelectron microscopy
/ Crystal structure
/ Domains
/ E coli
/ Electron microscopy
/ Escherichia coli
/ Humanities and Social Sciences
/ Immunoglobulins
/ Letter
/ Microscopy
/ multidisciplinary
/ Observations
/ Pathogens
/ Pili
/ Polymerization
/ Proteins
/ Receptors
/ Science
/ Science (multidisciplinary)
/ Structure
/ Translocation
2018
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Handover mechanism of the growing pilus by the bacterial outer-membrane usher FimD
Journal Article
Handover mechanism of the growing pilus by the bacterial outer-membrane usher FimD
2018
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Overview
Pathogenic bacteria such as
Escherichia coli
assemble surface structures termed pili, or fimbriae, to mediate binding to host-cell receptors
1
. Type 1 pili are assembled via the conserved chaperone–usher pathway
2
–
5
. The outer-membrane usher FimD recruits pilus subunits bound by the chaperone FimC via the periplasmic N-terminal domain of the usher. Subunit translocation through the β-barrel channel of the usher occurs at the two C-terminal domains (which we label CTD1 and CTD2) of this protein. How the chaperone–subunit complex bound to the N-terminal domain is handed over to the C-terminal domains, as well as the timing of subunit polymerization into the growing pilus, have previously been unclear. Here we use cryo-electron microscopy to capture a pilus assembly intermediate (FimD–FimC–FimF–FimG–FimH) in a conformation in which FimD is in the process of handing over the chaperone-bound end of the growing pilus to the C-terminal domains. In this structure, FimF has already polymerized with FimG, and the N-terminal domain of FimD swings over to bind CTD2; the N-terminal domain maintains contact with FimC–FimF, while at the same time permitting access to the C-terminal domains. FimD has an intrinsically disordered N-terminal tail that precedes the N-terminal domain. This N-terminal tail folds into a helical motif upon recruiting the FimC-subunit complex, but reorganizes into a loop to bind CTD2 during handover. Because both the N-terminal and C-terminal domains of FimD are bound to the end of the growing pilus, the structure further suggests a mechanism for stabilizing the assembly intermediate to prevent the pilus fibre diffusing away during the incorporation of thousands of subunits.
The structure of a pilus assembly intermediate reveals the timing of subunit polymerization and how chaperone–subunit complexes are transferred from N-terminal to C-terminal domains of the usher in the formation of bacterial pili.
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