Structure of the C-terminal domain of FliG, a component of the rotor in the bacterial flagellar motor
about
The crystal structure of D-lactate dehydrogenase, a peripheral membrane respiratory enzymeCrystal structure of the middle and C-terminal domains of the flagellar rotor protein FliGStructure of HrcQB-C, a conserved component of the bacterial type III secretion systemsStructure of the torque ring of the flagellar motor and the molecular basis for rotational switching.Structural Insight into the Rotational Switching Mechanism of the Bacterial Flagellar MotorArchitecture of the flagellar rotorStructure and Activity of the Flagellar Rotor Protein FliY: A MEMBER OF THE CheC PHOSPHATASE FAMILYStructure of FliM provides insight into assembly of the switch complex in the bacterial flagella motorMutational analysis of the flagellar protein FliG: sites of interaction with FliM and implications for organization of the switch complexSignaling components in bacterial locomotion and sensory reception.Torque-speed relationship of the bacterial flagellar motor.Inactivation of a putative flagellar motor switch protein FliG1 prevents Borrelia burgdorferi from swimming in highly viscous media and blocks its infectivityA slow-motility phenotype caused by substitutions at residue Asp31 in the PomA channel component of a sodium-driven flagellar motor.Structures of bacterial flagellar motors from two FliF-FliG gene fusion mutants.The EpsE flagellar clutch is bifunctional and synergizes with EPS biosynthesis to promote Bacillus subtilis biofilm formation.FliG subunit arrangement in the flagellar rotor probed by targeted cross-linkingInsertional inactivation of genes encoding components of the sodium-type flagellar motor and switch of Vibrio parahaemolyticus.Polar flagellar motility of the VibrionaceaeHow signals are heard during bacterial chemotaxis: protein-protein interactions in sensory signal propagation.Solvent-isotope and pH effects on flagellar rotation in Escherichia coli.Evidence for symmetry in the elementary process of bidirectional torque generation by the bacterial flagellar motor.Motility and chemotaxis in alkaliphilic Bacillus species.Dynamics of the bacterial flagellar motor: the effects of stator compliance, back steps, temperature, and rotational asymmetry.Assembly states of FliM and FliG within the flagellar switch complex.Serine 26 in the PomB subunit of the flagellar motor is essential for hypermotility of Vibrio cholerae.Coevolved Mutations Reveal Distinct Architectures for Two Core Proteins in the Bacterial Flagellar MotorA molecular mechanism of bacterial flagellar motor switchingDistinct roles of highly conserved charged residues at the MotA-FliG interface in bacterial flagellar motor rotationMembrane segment organization in the stator complex of the flagellar motor: implications for proton flow and proton-induced conformational change.Model studies of the dynamics of bacterial flagellar motors.Development of a novel chloramphenicol resistance expression plasmid used for genetic complementation of a fliG deletion mutant in Treponema denticolaStructure and function of the bi-directional bacterial flagellar motor.Contribution of many charged residues at the stator-rotor interface of the Na+-driven flagellar motor to torque generation in Vibrio alginolyticus.Expression, purification and biochemical characterization of the cytoplasmic loop of PomA, a stator component of the Na(+) driven flagellar motor.Requirements for conversion of the Na(+)-driven flagellar motor of Vibrio cholerae to the H(+)-driven motor of Escherichia coli.Functional chimeras of flagellar stator proteins between E. coli MotB and Vibrio PomB at the periplasmic region in Vibrio or E. coliAn electrostatic mechanism closely reproducing observed behavior in the bacterial flagellar motor.Concerted effects of amino acid substitutions in conserved charged residues and other residues in the cytoplasmic domain of PomA, a stator component of Na+-driven flagella.Helix rotation model of the flagellar rotary motor.Differential regulation of the multiple flagellins in spirochetes.
P2860
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P2860
Structure of the C-terminal domain of FliG, a component of the rotor in the bacterial flagellar motor
description
1999 nî lūn-bûn
@nan
1999 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
name
Structure of the C-terminal do ...... the bacterial flagellar motor
@ast
Structure of the C-terminal do ...... the bacterial flagellar motor
@en
Structure of the C-terminal do ...... the bacterial flagellar motor
@nl
type
label
Structure of the C-terminal do ...... the bacterial flagellar motor
@ast
Structure of the C-terminal do ...... the bacterial flagellar motor
@en
Structure of the C-terminal do ...... the bacterial flagellar motor
@nl
prefLabel
Structure of the C-terminal do ...... the bacterial flagellar motor
@ast
Structure of the C-terminal do ...... the bacterial flagellar motor
@en
Structure of the C-terminal do ...... the bacterial flagellar motor
@nl
P2093
P2860
P356
P1433
P1476
Structure of the C-terminal do ...... the bacterial flagellar motor
@en
P2093
P2860
P2888
P356
10.1038/22794
P407
P577
1999-07-29T00:00:00Z
P6179
1049725635