The pilus usher controls protein interactions via domain masking and is functional as an oligomer
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Title
The pilus usher controls protein interactions via domain masking and is functional as an oligomer
Authors
Keywords
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Journal
NATURE STRUCTURAL & MOLECULAR BIOLOGY
Volume 22, Issue 7, Pages 540-546
Publisher
Springer Nature
Online
2015-06-08
DOI
10.1038/nsmb.3044
References
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Related references
Note: Only part of the references are listed.- The molecular dissection of the chaperone–usher pathway
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- Domain activities of PapC usher reveal the mechanism of action of an Escherichia coli molecular machine
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- Crystal structure of the FimD usher bound to its cognate FimC–FimH substrate
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- The Oligomeric State and Arrangement of the Active Bacterial Translocon
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- Conserved Hydrophobic Clusters on the Surface of the Caf1A Usher C-Terminal Domain Are Important for F1 Antigen Assembly
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- The differential affinity of the usher for chaperone-subunit complexes is required for assembly of complete pili
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- Function of the usher N-terminus in catalysing pilus assembly
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- Modulating Effects of the Plug, Helix, and N- and C-terminal Domains on Channel Properties of the PapC Usher
- (2009) Owen S. Mapingire et al. JOURNAL OF BIOLOGICAL CHEMISTRY
- The Outer Membrane Usher Guarantees the Formation of Functional Pili by Selectively Catalyzing Donor-Strand Exchange between Subunits That Are Adjacent in the Mature Pilus
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- An Enhanced System for Unnatural Amino Acid Mutagenesis in E. coli
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- Insights into pilus assembly and secretion from the structure and functional characterization of usher PapC
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- Caf1A usher possesses a Caf1 subunit-like domain that is crucial for Caf1 fibre secretion
- (2008) Xiaodi Yu et al. BIOCHEMICAL JOURNAL
- Fiber Formation across the Bacterial Outer Membrane by the Chaperone/Usher Pathway
- (2008) Han Remaut et al. CELL
- Crystal structure of the ternary FimC-FimFt-FimDNcomplex indicates conserved pilus chaperone-subunit complex recognition by the usher FimD
- (2008) Oliv Eidam et al. FEBS LETTERS
- Site-directed, Ligase-Independent Mutagenesis (SLIM) for highly efficient mutagenesis of plasmids greater than 8kb
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- Reconstitution of Pilus Assembly Reveals a Bacterial Outer Membrane Catalyst
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