High-force generation is a conserved property of type IV pilus systems. - Wikidata - wikimedia - TriplyDB

High-force generation is a conserved property of type IV pilus systems.

High-force generation is a conserved property of type IV pilus systems.

http://www.wikidata.org/entity/Q33442717

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Type IV pilin proteins: versatile molecular modules Myxococcus xanthus gliding motors are elastically coupled to the substrate as predicted by the focal adhesion model of gliding motility Exopolysaccharide-independent social motility of Myxococcus xanthus Structural analysis of the Ras-like G protein MglA and its cognate GAP MglB and implications for bacterial polarity Architecture of the type IVa pilus machine Oxygen depletion triggers switching between discrete speed modes of gonococcal type IV pili Structure of the Neisseria meningitidis Type IV pilus.Structure and function of the adhesive type IV pilus of Sulfolobus acidocaldarius.Structure of the Vibrio cholerae Type IVb Pilus and stability comparison with the Neisseria gonorrhoeae type IVa pilus Earthquake-like dynamics in Myxococcus xanthus social motility.Systematic functional analysis reveals that a set of seven genes is involved in fine-tuning of the multiple functions mediated by type IV pili in Neisseria meningitidis.Characterization of motility and piliation in pathogenic Neisseria.Exopolysaccharide microchannels direct bacterial motility and organize multicellular behavior.Gliding motility revisited: how do the myxobacteria move without flagella?Membrane-associated DNA transport machines.Direct visualization of the interaction between pilin and exopolysaccharides of Myxococcus xanthus with eGFP-fused PilA protein A response regulator interfaces between the Frz chemosensory system and the MglA/MglB GTPase/GAP module to regulate polarity in Myxococcus xanthus PilT2 enhances the speed of gonococcal type IV pilus retraction and of twitching motility.Speed switching of gonococcal surface motility correlates with proton motive force.Type IV pilus proteins form an integrated structure extending from the cytoplasm to the outer membrane Oxygen governs gonococcal microcolony stability by enhancing the interaction force between type IV pili.The Vibrio cholerae Minor Pilin TcpB Initiates Assembly and Retraction of the Toxin-Coregulated Pilus.Genetic Identification of a PilT Motor in Geobacter sulfurreducens Reveals a Role for Pilus Retraction in Extracellular Electron Transfer.Peptidoglycan-binding protein TsaP functions in surface assembly of type IV pili.Natural competence and the evolution of DNA uptake specificity.Emergence of complex behavior in pili-based motility in early stages of P. aeruginosa surface adaptation.From individual cell motility to collective behaviors: insights from a prokaryote, Myxococcus xanthus.Chemosensory signaling controls motility and subcellular polarity in Myxococcus xanthus.The orphan histidine protein kinase SgmT is a c-di-GMP receptor and regulates composition of the extracellular matrix together with the orphan DNA binding response regulator DigR in Myxococcus xanthus.Cyclic diguanylate signaling in Gram-positive bacteria Role of Cyclic Di-GMP and Exopolysaccharide in Type IV Pilus Dynamics.The Type IV Pilus Assembly ATPase PilB of Myxococcus xanthus Interacts with the Inner Membrane Platform Protein PilC and the Nucleotide-binding Protein PilM.Functional analysis of an unusual type IV pilus in the Gram-positive Streptococcus sanguinis.Cloning-independent markerless gene editing in Streptococcus sanguinis: novel insights in type IV pilus biology.Nanoscale Pulling of Type IV Pili Reveals Their Flexibility and Adhesion to Surfaces over Extended Lengths of the Pili The type IV pilus assembly ATPase PilB functions as a signaling protein to regulate exopolysaccharide production in Myxococcus xanthus.Modulation of Kingella kingae adherence to human epithelial cells by type IV Pili, capsule, and a novel trimeric autotransporter.Type IV pilus biogenesis, twitching motility, and DNA uptake in Thermus thermophilus: discrete roles of antagonistic ATPases PilF, PilT1, and PilT2.Outside-in assembly pathway of the type IV pilus system in Myxococcus xanthus.Regulation of the type IV pili molecular machine by dynamic localization of two motor proteins.

P2860

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P2860

High-force generation is a conserved property of type IV pilus systems.

http://www.wikidata.org/entity/Q33442717

description

2009 nî lūn-bûn

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2009 թուականի Մայիսին հրատարակուած գիտական յօդուած

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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年论文

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High-force generation is a conserved property of type IV pilus systems.

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High-force generation is a conserved property of type IV pilus systems.

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type

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High-force generation is a conserved property of type IV pilus systems.

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High-force generation is a conserved property of type IV pilus systems.

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prefLabel

High-force generation is a conserved property of type IV pilus systems.

@ast

High-force generation is a conserved property of type IV pilus systems.

@en

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P1433

Journal of Bacteriology

P1476

High-force generation is a conserved property of type IV pilus systems.

@en

P2093

Berenike Maier

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Martin Clausen

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Vladimir Jakovljevic

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P2860

The CLUSTAL_X windows interface: flexible strategies for multiple sequence alignment aided by quality analysis tools

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

TreeDyn: towards dynamic graphics and annotations for analyses of trees

Pilus retraction powers bacterial twitching motility

Gliding motility in bacteria: insights from studies of Myxococcus xanthus.

Social gliding is correlated with the presence of pili in Myxococcus xanthus

Functional role of conserved residues in the characteristic secretion NTPase motifs of the Pseudomonas aeruginosa type IV pilus motor proteins PilB, PilT and PilU

Characterization of a gene, pilU, required for twitching motility but not phage sensitivity in Pseudomonas aeruginosa

Using laser tweezers to measure twitching motility in Neisseria.

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

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4633-4638

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scholarly article

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10.1128/JB.00396-09

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14

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191

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Lotte Sogaard-Andersen

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2009-05-08T00:00:00Z

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24415275

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19429611

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2704717

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