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Biomechanics

Bacterial flagellar switching under load

Nature volume 423page 938 (2003)Cite this article

Abstract

Flagellated bacteria swim up gradients of chemical attractants by modulating the direction of rotation of their flagellar motors, but how this switching mechanism works is not understood. Here we show that the probability of the motor rotating in the clockwise direction increases under high load, when the motor spins slowly (at less than 50 Hz). We suggest that either the switch is responding to small changes in torque — the torque increases only fractionally between 50 Hz and stall — or it senses motor speed, perhaps by means of proton flux.

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Figure 1: Behaviour of the flagellar switch of Escherichia coli under different loadings.

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Authors and Affiliations

  1. Department of Molecular and Cellular Biology, Harvard University, Cambridge, 02138, Massachusetts, USA

    Karen A. Fahrner, William S. Ryu & Howard C. Berg

  2. Rowland Institute at Harvard, Cambridge, 02142, Massachusetts, USA

    Karen A. Fahrner, William S. Ryu & Howard C. Berg

Authors
  1. Karen A. Fahrner
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  2. William S. Ryu
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  3. Howard C. Berg
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Corresponding author

Correspondence to Howard C. Berg.

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The authors declare no competing financial interests.

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Fahrner, K., Ryu, W. & Berg, H. Bacterial flagellar switching under load. Nature 423, 938 (2003). https://doi.org/10.1038/423938a

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