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Mechanism and kinetics of a sodium-driven bacterial flagellar motor.


ABSTRACT: The bacterial flagellar motor is a large rotary molecular machine that propels swimming bacteria, powered by a transmembrane electrochemical potential difference. It consists of an ?50-nm rotor and up to ?10 independent stators anchored to the cell wall. We measured torque-speed relationships of single-stator motors under 25 different combinations of electrical and chemical potential. All 25 torque-speed curves had the same concave-down shape as fully energized wild-type motors, and each stator passes at least 37 ± 2 ions per revolution. We used the results to explore the 25-dimensional parameter space of generalized kinetic models for the motor mechanism, finding 830 parameter sets consistent with the data. Analysis of these sets showed that the motor mechanism has a "powerstroke" in either ion binding or transit; ion transit is channel-like rather than carrier-like; and the rate-limiting step in the motor cycle is ion binding at low concentration, ion transit, or release at high concentration.

SUBMITTER: Lo CJ 

PROVIDER: S-EPMC3710797 | biostudies-other | 2013 Jul

REPOSITORIES: biostudies-other

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Mechanism and kinetics of a sodium-driven bacterial flagellar motor.

Lo Chien-Jung CJ   Sowa Yoshiyuki Y   Pilizota Teuta T   Berry Richard M RM  

Proceedings of the National Academy of Sciences of the United States of America 20130620 28


The bacterial flagellar motor is a large rotary molecular machine that propels swimming bacteria, powered by a transmembrane electrochemical potential difference. It consists of an ∼50-nm rotor and up to ∼10 independent stators anchored to the cell wall. We measured torque-speed relationships of single-stator motors under 25 different combinations of electrical and chemical potential. All 25 torque-speed curves had the same concave-down shape as fully energized wild-type motors, and each stator  ...[more]

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