Supplementary material from "Multi-fractal characterization of bacterial swimming dynamics: a case study on real and simulated Serratia marcescens"
Version 2 2017-07-08, 10:48
Version 1 2017-06-27, 10:40
Posted on 2017-07-08 - 10:48
To add to the current state of knowledge about bacterial swimming dynamics, in this paper, we study the fractal swimming dynamics of populations of Serratia marcescens bacteria both in vitro and in silico, while accounting for realistic conditions like volume exclusion, chemical interactions, obstacles and distribution of chemoattractant in the environment. While previous research has shown that bacterial motion is non-ergodic, we demonstrate that, besides the non-ergodicity, the bacterial swimming dynamics is multi-fractal in nature. Finally, we demonstrate that the multi-fractal characteristic of bacterial dynamics is strongly affected by bacterial density and chemoattractant concentration.
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Koorehdavoudi, Hana; Bogdan, Paul; Wei, Guopeng; Marculescu, Radu; Zhuang, Jiang; Carlsen, Rika Wright; et al. (2017). Supplementary material from "Multi-fractal characterization of bacterial swimming dynamics: a case study on real and simulated Serratia marcescens". The Royal Society. Collection. https://doi.org/10.6084/m9.figshare.c.3811489.v2
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AUTHORS (7)
HK
Hana Koorehdavoudi
PB
Paul Bogdan
GW
Guopeng Wei
RM
Radu Marculescu
JZ
Jiang Zhuang
RC
Rika Wright Carlsen
MS
Metin Sitti