Katie Ford scite author profile

Katie Ford

3Publications

89Citation Statements Received

117Citation Statements Given

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111

Affiliations

Texas A&M University, St George's Hospital, St George's, University of London

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Torque, but not FliL, regulates mechanosensitive flagellar motor-function

Chawla

Ford

Lele

2017

Sci Rep

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The stator-complex in the bacterial flagellar motor is responsible for surface-sensing. It remodels in response to perturbations in viscous loads, recruiting additional stator-units as the load increases. Here, we tested a hypothesis that the amount of torque generated by each stator-unit modulates its association with the rotor. To do this, we measured stator-binding to the rotor in mutants in which motors reportedly develop lower torque compared to wildtype motors. First, we employed a strain lacking fliL. Contrary to earlier reports, measurements indicated that the torque generated by motors in the fliL strain was similar to that in the wildtype, at high loads. In these motors, stator-binding was unchanged. Next, experiments with a paralyzed strain indicated that the stator-binding was measurably weaker when motors were unable to generate torque. An analytical model was developed that incorporated an exponential dependence of the unit’s dissociation rate on the force delivered to the rotor. The model provided accurate fits to measurements of stator-rotor binding over a wide range of loads. Based on these results, we propose that the binding of each stator-unit is enhanced by the force it develops. Furthermore, FliL does not play a significant role in motor function in E. coli.

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Biophysical Characterization of Flagellar Motor Functions

Ford

Chawla

Lele

2017

JoVE

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The role of flagellar motors in bacterial motility and chemotaxis is well-understood. Recent discoveries suggest that flagellar motors are able to remodel in response to a variety of environmental stimuli and are among the triggers for surface colonization and infections. The precise mechanisms by which motors remodel and promote cellular adaptation likely depend on key motor attributes. The photomultiplier-based bead-tracking technique presented here enables accurate biophysical characterization of motor functions, including adaptations in motor speeds and switch-dynamics. This approach offers the advantage of real-time tracking and the ability to probe motor behavior over extended durations. The protocols discussed can be readily extended to study flagellar motors in a variety of bacterial species.

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Pulmonary rehabilitation: analysis of a clinical service

Garrod

Ford

Daly

et al. 2004

Physiotherapy Res Intl

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Katie Ford

Torque, but not FliL, regulates mechanosensitive flagellar motor-function

Biophysical Characterization of Flagellar Motor Functions

Pulmonary rehabilitation: analysis of a clinical service

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