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Dynamics of type IV pili is controlled by switching between multiple states

Dynamics of type IV pili is controlled by switching between multiple states

http://www.wikidata.org/entity/Q33404804

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Rapid cytoskeletal response of epithelial cells to force generation by type IV pili P. aeruginosa PilT Structures with and without Nucleotide Reveal a Dynamic Type IV Pilus Retraction Motor Architecture of the type IVa pilus machine Type-IV Pilus deformation can explain retraction behavior Oxygen depletion triggers switching between discrete speed modes of gonococcal type IV pili Distinct docking and stabilization steps of the Pseudopilus conformational transition path suggest rotational assembly of type IV pilus-like fibers.Composite system mediates two-step DNA uptake into Helicobacter pylori.Force-dependent polymorphism in type IV pili reveals hidden epitopes.Characterization of motility and piliation in pathogenic Neisseria.High-force generation is a conserved property of type IV pilus systems.In planta gene expression analysis of Xanthomonas oryzae pathovar oryzae, African strain MAI1.Bacteria differently deploy type-IV pili on surfaces to adapt to nutrient availability Membrane-associated DNA transport machines.Uncovering the mechanism of trapping and cell orientation during Neisseria gonorrhoeae twitching motility Seminal plasma initiates a Neisseria gonorrhoeae transmission state PilT2 enhances the speed of gonococcal type IV pilus retraction and of twitching motility.Flagella and pili-mediated near-surface single-cell motility mechanisms in P. aeruginosa.Speed switching of gonococcal surface motility correlates with proton motive force.Characterization of four type IV pilin homologues in Stigmatella aurantiaca DSM17044 by heterologous expression in Myxococcus xanthus.Bacteria use type-IV pili to slingshot on surfaces.Oxygen governs gonococcal microcolony stability by enhancing the interaction force between type IV pili.Differential interaction forces govern bacterial sorting in early biofilms.Kinetics of DNA uptake during transformation provide evidence for a translocation ratchet mechanism.Emergence of complex behavior in pili-based motility in early stages of P. aeruginosa surface adaptation.Role of Cyclic Di-GMP and Exopolysaccharide in Type IV Pilus Dynamics.Techniques to measure pilus retraction forces.Modeling and Simulating the Dynamics of Type IV Pili Extension of Pseudomonas aeruginosa.Bacterial twitching motility is coordinated by a two-dimensional tug-of-war with directional memory.Bacterial Translocation Ratchets: Shared Physical Principles with Different Molecular Implementations: How bacterial secretion systems bias Brownian motion for efficient translocation of macromolecules.

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P2860

Dynamics of type IV pili is controlled by switching between multiple states

http://www.wikidata.org/entity/Q33404804

description

2009 nî lūn-bûn

@nan

2009 թուականի Փետրուարին հրատարակուած գիտական յօդուած

@hyw

2009 թվականի փետրվարին հրատարակված գիտական հոդված

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2009年の論文

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2009年論文

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2009年論文

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2009年論文

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2009年論文

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2009年論文

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2009年论文

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name

Dynamics of type IV pili is controlled by switching between multiple states

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Dynamics of type IV pili is controlled by switching between multiple states

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type

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Dynamics of type IV pili is controlled by switching between multiple states

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Dynamics of type IV pili is controlled by switching between multiple states

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prefLabel

Dynamics of type IV pili is controlled by switching between multiple states

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Dynamics of type IV pili is controlled by switching between multiple states

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J.BPJ.2008.10.017

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Biophysical Journal

P1476

Dynamics of type IV pili is controlled by switching between multiple states

@en

P2093

Berenike Maier

http://www.w3.org/2001/XMLSchema#string

Martin Clausen

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P2860

A component of innate immunity prevents bacterial biofilm development

The N. gonorrhoeae type IV pilus stimulates mechanosensitive pathways and cytoprotection through a pilT-dependent mechanism.

Cooperative retraction of bundled type IV pili enables nanonewton force generation

Crystal Structures of the Pilus Retraction Motor PilT Suggest Large Domain Movements and Subunit Cooperation Drive Motility

Pilus retraction powers bacterial twitching motility

Force generation in small ensembles of Brownian motors.

DNA transport into Bacillus subtilis requires proton motive force to generate large molecular forces.

Using laser tweezers to measure twitching motility in Neisseria.

Direct observation of extension and retraction of type IV pili

Interactions of pathogenic neisseriae with epithelial cell membranes.

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scholarly article

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10.1016/J.BPJ.2008.10.017

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23967857

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19186152

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