Competitive binding of independent extension and retraction motors explains the quantitative dynamics of type IV pili
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abstract
AbstractThe functions of type IV pili (TFP) are mediated by cycles of extension and retraction. The coordination of these cycles remains mysterious due to poor quantification of TFP dynamics. Here we fluorescently label the TFP in the opportunistic pathogen Pseudomonas aeruginosa and track the full extension and retraction cycles of individual TFP to quantify their dynamics. We test several models for the switch between extension and retraction using quantitative experiments, biophysical modeling and genetics. We invalidate the prominent hypothesis that this switch is triggered by surface contact. Instead, we show that the entire repetitive cycle of extension and retraction of individual TFP is governed by the stochastic binding of antagonistic extension and retraction motors and explain how this mechanism quantitatively defines physiologically-important features like TFP length and their production rate. Interestingly, our results suggest that the major throttle of TFP production is the unbinding of the retraction motor.
