Data for The colloidal nature of complex fluids enhances bacterial motility

Kamdar, Shashank
Shin, Seunghwan
Leishangthem, Premkumar
Francis, Lorraine F
Xu, XinLiang
Cheng, Xiang
2022
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https://doi.org/10.13020/nfr5-te36
 https://hdl.handle.net/11299/226078
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2018-01-20
2021-10-30

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Data for The colloidal nature of complex fluids enhances bacterial motility

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2022

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Cheng, Xiang
xcheng@umn.edu

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Abstract

The archived data are the post-processed final data corresponding to figures in the manuscript as well as codes used for generating key plots.

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Referenced by

Kamdar, S., Shin, S., Leishangthem, P., Francis, L. F., Xu, X., & Cheng, X. (2022). The colloidal nature of complex fluids enhances bacterial motility. Nature, 603(7903), 819-823.
https://doi.org/10.1038/s41586-022-04509-3

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Data Repository for U of M (DRUM)

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IPRIME at University at Minnesota. US National Science Foundation CBET-1702352 and 2028652

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Kamdar, Shashank; Shin, Seunghwan; Leishangthem, Premkumar; Francis, Lorraine F; Xu, XinLiang; Cheng, Xiang. (2022). Data for The colloidal nature of complex fluids enhances bacterial motility. Retrieved from the Data Repository for the University of Minnesota (DRUM), https://doi.org/10.13020/nfr5-te36.

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Description
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addtheta_sh.m
Code for body orientation angle
(446 B)

Data_frames.m
Code for speed measurement
(1016 B)

elliptrack_sh.m
Code to identify ellipsoidal features in dark images
(3.48 KB)

wobbling_sh.m
Code for wobble angle
(1.11 KB)

Figure 1.xls
Raw data for plot 1
(27.5 KB)

Figure 2.xls
Raw data for plot 2
(53.5 KB)

Figure 3.xls
Raw data for plot 3
(55.5 KB)

Figure 4.xls
Raw data for plot 4
(13 KB)

ReadMe.txt
ReadMe
(4.44 KB)

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