Litcius/Paper detail

Mechanosensitive remodeling of the bacterial flagellar motor is independent of direction of rotation

Navish Wadhwa, Yuhai Tu, Howard C. Berg

2021Proceedings of the National Academy of Sciences39 citationsDOIOpen Access PDF

Abstract

recruits or releases torque-generating units (stator units) in response to changes in load. Here, we show that this mechanosensitive remodeling of the flagellar motor is independent of direction of rotation. Remodeling rate constants in clockwise rotating motors and in counterclockwise rotating motors, measured previously, fall on the same curve if plotted against torque. Increased torque decreases the off rate of stator units from the motor, thereby increasing the number of active stator units at steady state. A simple mathematical model based on observed dynamics provides quantitative insight into the underlying molecular interactions. The torque-dependent remodeling mechanism represents a robust strategy to quickly regulate output (torque) in response to changes in demand (load).

Topics & Concepts

Mechanosensitive channelsStatorRotor (electric)Molecular motorRotation (mathematics)Mechanism (biology)Motor proteinFlagellumTorquePhysicsBiologyComputer scienceBiophysicsCell biologyGeneticsArtificial intelligenceBacteriaIon channelThermodynamicsMicrotubuleQuantum mechanicsReceptorBacterial Genetics and BiotechnologyLipid Membrane Structure and BehaviorBacteriophages and microbial interactions