Comparison of Escherichia coli surface attachment methods for single-cell microscopy

Yao-Kuan Wang; Ekaterina Krasnopeeva; Ssu-Yuan Lin; Fan Bai; Teuta Pilizota; Chien-Jung Lo

doi:10.1038/s41598-019-55798-0

Comparison of Escherichia coli surface attachment methods for single-cell microscopy

Yao-Kuan Wang, Ekaterina Krasnopeeva, Ssu-Yuan Lin, Fan Bai, Teuta Pilizota, Chien-Jung Lo

School of Biological Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

For in vivo, single-cell imaging bacterial cells are commonly immobilised via physical confinement or surface attachment.Different surface attachment methods have been used both for atomic force and optical microscopy (including super resolution),and some have been reported to affect bacterial physiology. However, a systematic comparison of the effects these attachment methods have on the bacterial physiology is lacking. Here we present such a comparison for bacterium Escherichia coli,and assess the growth rate, size and intracellular pH of cells growing attached to different, commonly used, surfaces. We demonstrate that E. coli grow at the same rate, length and internal pH on all the tested surfaces when in the same growth medium. The result suggests that tested attachment methods can be used interchangeably when studying E. coli physiology

Original language	English
Article number	19418
Journal	Scientific Reports
DOIs	https://doi.org/10.1038/s41598-019-55798-0
Publication status	Published - 19 Dec 2019

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10.1038/s41598-019-55798-0Licence: Creative Commons: Attribution (CC-BY)

LoEtalSR2019ComparisonOfEscherichiaColiSurfaceAttachmentFinal published version, 4.58 MBLicence: Creative Commons: Attribution (CC-BY)

Revealing bacterial free energy dynamics during loss of viability
Pilizota, T. (Principal Investigator)
Non-EU other
1/06/15 → 31/05/19
Project: Research

Comparison of Escherichia coli surface attachment methods for single-cell microscopy
Lo, C.-J. (Creator), Krasnopeeva, E. (Creator), Wang, Y.-K. (Creator) & Pilizota, T. (Creator), Edinburgh DataShare, 17 Oct 2019
DOI: 10.7488/ds/2633, https://www.biorxiv.org/content/10.1101/648840v2
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title = "Comparison of Escherichia coli surface attachment methods for single-cell microscopy",

abstract = "For in vivo, single-cell imaging bacterial cells are commonly immobilised via physical confinement or surface attachment.Different surface attachment methods have been used both for atomic force and optical microscopy (including super resolution),and some have been reported to affect bacterial physiology. However, a systematic comparison of the effects these attachment methods have on the bacterial physiology is lacking. Here we present such a comparison for bacterium Escherichia coli,and assess the growth rate, size and intracellular pH of cells growing attached to different, commonly used, surfaces. We demonstrate that E. coli grow at the same rate, length and internal pH on all the tested surfaces when in the same growth medium. The result suggests that tested attachment methods can be used interchangeably when studying E. coli physiology",

author = "Yao-Kuan Wang and Ekaterina Krasnopeeva and Ssu-Yuan Lin and Fan Bai and Teuta Pilizota and Chien-Jung Lo",

year = "2019",

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AU - Wang, Yao-Kuan

AU - Krasnopeeva, Ekaterina

AU - Lin, Ssu-Yuan

AU - Bai, Fan

AU - Pilizota, Teuta

AU - Lo, Chien-Jung

PY - 2019/12/19

Y1 - 2019/12/19

N2 - For in vivo, single-cell imaging bacterial cells are commonly immobilised via physical confinement or surface attachment.Different surface attachment methods have been used both for atomic force and optical microscopy (including super resolution),and some have been reported to affect bacterial physiology. However, a systematic comparison of the effects these attachment methods have on the bacterial physiology is lacking. Here we present such a comparison for bacterium Escherichia coli,and assess the growth rate, size and intracellular pH of cells growing attached to different, commonly used, surfaces. We demonstrate that E. coli grow at the same rate, length and internal pH on all the tested surfaces when in the same growth medium. The result suggests that tested attachment methods can be used interchangeably when studying E. coli physiology

AB - For in vivo, single-cell imaging bacterial cells are commonly immobilised via physical confinement or surface attachment.Different surface attachment methods have been used both for atomic force and optical microscopy (including super resolution),and some have been reported to affect bacterial physiology. However, a systematic comparison of the effects these attachment methods have on the bacterial physiology is lacking. Here we present such a comparison for bacterium Escherichia coli,and assess the growth rate, size and intracellular pH of cells growing attached to different, commonly used, surfaces. We demonstrate that E. coli grow at the same rate, length and internal pH on all the tested surfaces when in the same growth medium. The result suggests that tested attachment methods can be used interchangeably when studying E. coli physiology

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M3 - Article

SN - 2045-2322

JO - Scientific Reports

JF - Scientific Reports

M1 - 19418

ER -

Comparison of Escherichia coli surface attachment methods for single-cell microscopy

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Revealing bacterial free energy dynamics during loss of viability

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Comparison of Escherichia coli surface attachment methods for single-cell microscopy

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