Curved tails in polymerization-based bacterial motility
- 19 July 2001
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review E
- Vol. 64 (2) , 021904
- https://doi.org/10.1103/physreve.64.021904
Abstract
The curved actin “comet-tail” of the bacterium Listeria monocytogenes is a visually striking signature of actin polymerization-based motility. Similar actin tails are associated with Shigella flexneri, spotted-fever Rickettsiae, the Vaccinia virus, and vesicles and microspheres in related in vitro systems. We show that the torque required to produce the curvature in the tail can arise from randomly placed actin filaments pushing the bacterium or particle. We find that the curvature magnitude determines the number of actively pushing filaments, independent of viscosity and of the molecular details of force generation. The variation of the curvature with time can be used to infer the dynamics of actin filaments at the bacterial surface.Keywords
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This publication has 40 references indexed in Scilit:
- An Elastic Analysis of Listeria monocytogenes PropulsionBiophysical Journal, 2000
- Reconstitution of actin-based motility of Listeria and Shigella using pure proteinsNature, 1999
- On the ‘listeria’ propulsion mechanismPramana, 1999
- Rocket-based motility: a universal mechanism?Nature Cell Biology, 1999
- INTRACELLULAR PATHOGENS AND THE ACTIN CYTOSKELETONAnnual Review of Cell and Developmental Biology, 1998
- Cell motility driven by actin polymerizationBiophysical Journal, 1996
- Actin-based motility of vaccinia virusNature, 1995
- The Cell Biology of Infection by Intracellular Bacterial PathogensAnnual Review of Cell and Developmental Biology, 1995
- Asymmetric distribution of the Listeria monocytogenes ActA protein is required and sufficient to direct actin‐based motilityMolecular Microbiology, 1995
- L. monocytogenes-induced actin assembly requires the actA gene product, a surface proteinCell, 1992