We determined the torque of the flagellar motor of Caulobacter crescentus for different motor rotation rates by measuring the rotation rate and swimming speed of the cell body and found it to be remarkably different from that of other bacteria, such as Escherichia coli and Vibrio alginolyticus. The average stall torque of the Caulobacter flagellar motor was ∼350 pN nm, much smaller than the values of the other bacteria measured. Furthermore, the torque of the motor remained constant in the range of rotation rates up to those of freely swimming cells. In contrast, the torque of a freely swimming cell for V. alginolyticus is typically ∼20% of the stall torque. We derive from these results that the C. crescentus swarmer cells swim more efficiently than both E. coli and V. alginolyticus. Our findings suggest that C. crescentus is optimally adapted to low nutrient aquatic environments. © 2006 by the Biophysical Society.
CITATION STYLE
Li, G., & Tang, J. X. (2006). Low flagellar motor torque and high swimming efficiency of Caulobacter crescentus swarmer cells. Biophysical Journal, 91(7), 2726–2734. https://doi.org/10.1529/biophysj.106.080697
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