Second messenger-mediated tactile response by a bacterial rotary motor
Abstract
Bacteria can adhere to surfaces within the host. This leads to tissue colonization, induction of virulence, and eventually the formation of biofilms—multicellular bacterial communities that resist antibiotics and clearance by the immune system (see the Perspective by Hughes and Berg). Hug et al. show that bacteria have a sense of touch that allows them to change their behavior rapidly when encountering surfaces. This tactile sensing makes use of the inner components of the flagellum, a rotary motor powered by proton motif force that facilitates swimming toward surfaces. Thus, the multifunctional flagellar motor is a mechanosensitive device that promotes surface adaptation. In complementary work, Ellison et al. elucidate the role of bacterial pili in a similar surface-sensing role.
- Publication:
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Science
- Pub Date:
- October 2017
- DOI:
- 10.1126/science.aan5353
- Bibcode:
- 2017Sci...358..531H
- Keywords:
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- MICROBIO