Getting to where you want to be: bacterial swimming and its control
Abstract
Bacteria swim by rotating semi-rigid helical flagellar filaments, using an ion driven rotary motor embedded in the membrane. Bacteria are too small to sense a spatial gradient and therefore sense changes in time, and use the signals to bias their direction changing pattern to bias overall swimming towards a favourable environment. I will discuss how interdisciplinary research has helped us understand both the mechanism of motor function and its control by chemosensory signals.
Please see https://www.eventbrite.co.uk/e/qbiox-colloquium-dunn-school-seminar-hil…
for details.