English

Chemotaxis When Bacteria Remember: Drift versus Diffusion

Statistical Mechanics 2011-12-08 v2 Biological Physics Cell Behavior

Abstract

{\sl Escherichia coli} ({\sl E. coli}) bacteria govern their trajectories by switching between running and tumbling modes as a function of the nutrient concentration they experienced in the past. At short time one observes a drift of the bacterial population, while at long time one observes accumulation in high-nutrient regions. Recent work has viewed chemotaxis as a compromise between drift toward favorable regions and accumulation in favorable regions. A number of earlier studies assume that a bacterium resets its memory at tumbles -- a fact not borne out by experiment -- and make use of approximate coarse-grained descriptions. Here, we revisit the problem of chemotaxis without resorting to any memory resets. We find that when bacteria respond to the environment in a non-adaptive manner, chemotaxis is generally dominated by diffusion, whereas when bacteria respond in an adaptive manner, chemotaxis is dominated by a bias in the motion. In the adaptive case, favorable drift occurs together with favorable accumulation. We derive our results from detailed simulations and a variety of analytical arguments. In particular, we introduce a new coarse-grained description of chemotaxis as biased diffusion, and we discuss the way it departs from older coarse-grained descriptions.

Keywords

Cite

@article{arxiv.1103.5355,
  title  = {Chemotaxis When Bacteria Remember: Drift versus Diffusion},
  author = {Sakuntala Chatterjee and Rava Azeredo da Silveira and Yariv Kafri},
  journal= {arXiv preprint arXiv:1103.5355},
  year   = {2011}
}

Comments

Revised version, journal reference added

R2 v1 2026-06-21T17:45:35.281Z