Elastic actin comet tails: shape, stresses and propulsion

Details Elastic actin comet tails: shape, stresses and propulsion Elastic actin comet tails: shape, stresses and propulsion

Mar 2005

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2005aps..maru31014g&link_type=abstract

American Physical Society, APS March Meeting, March 21-25, 2005, abstract #U31.014

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Actin based motility is a recurring theme in a variety of biological systems ranging from keratocytes that use their dynamically re-arranging cytoskeleton for motility to bacterial pathogens like Listeria that hijack the host cell's actin machinery and are propelled by actin comet tails. The basic principle behind all these processes is the conversion of free energy of polymerization into a protrusive force. Recent experimental observations have suggested several distinctive features of such propulsion especially in the case of Listeria motion. We model the process by a finite element simulation of the actin comet tail which is treated as a continuum elastic material that is tethered to the rear of the bacterium. We investigate steady state properties such as the shape of the comet tail, stresses generated and also the time dependence of the motion.

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