Quantifying microbial robustness in dynamic environments using microfluidic single-cell cultivation

Blöbaum L, Torello Pianale L, Olsson L, Grünberger A (2024)
Microbial Cell Factories 23(1): 44.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Autor*in
Blöbaum, LuisaUniBi; Torello Pianale, Luca; Olsson, Lisbeth; Grünberger, AlexanderUniBi
Abstract / Bemerkung
BACKGROUND: Microorganisms must respond to changes in their environment. Analysing the robustness of functions (i.e. performance stability) to such dynamic perturbations is of great interest in both laboratory and industrial settings. Recently, a quantification method capable of assessing the robustness of various functions, such as specific growth rate or product yield, across different conditions, time frames, and populations has been developed for microorganisms grown in a 96-well plate. In micro-titer-plates, environmental change is slow and undefined. Dynamic microfluidic single-cell cultivation (dMSCC) enables the precise maintenance and manipulation of microenvironments, while tracking single cells over time using live-cell imaging. Here, we combined dMSCC and a robustness quantification method to a pipeline for assessing performance stability to changes occurring within seconds or minutes.; RESULTS: Saccharomyces cerevisiae CEN.PK113-7D, harbouring a biosensor for intracellular ATP levels, was exposed to glucose feast-starvation cycles, with each condition lasting from 1.5 to 48min over a 20h period. A semi-automated image and data analysis pipeline was developed and applied to assess the performance and robustness of various functions at population, subpopulation, and single-cell resolution. We observed a decrease in specific growth rate but an increase in intracellular ATP levels with longer oscillation intervals. Cells subjected to 48min oscillations exhibited the highest average ATP content, but the lowest stability over time and the highest heterogeneity within the population.; CONCLUSION: The proposed pipeline enabled the investigation of function stability in dynamic environments, both over time and within populations. The strategy allows for parallelisation and automation, and is easily adaptable to new organisms, biosensors, cultivation conditions, and oscillation frequencies. Insights on the microbial response to changing environments will guide strain development and bioprocess optimisation. © 2024. The Author(s).
Erscheinungsjahr
2024
Zeitschriftentitel
Microbial Cell Factories
Band
23
Ausgabe
1
Art.-Nr.
44
eISSN
1475-2859
Page URI
https://pub.uni-bielefeld.de/record/2986983

Zitieren

Blöbaum L, Torello Pianale L, Olsson L, Grünberger A. Quantifying microbial robustness in dynamic environments using microfluidic single-cell cultivation. Microbial Cell Factories . 2024;23(1): 44.
Blöbaum, L., Torello Pianale, L., Olsson, L., & Grünberger, A. (2024). Quantifying microbial robustness in dynamic environments using microfluidic single-cell cultivation. Microbial Cell Factories , 23(1), 44. https://doi.org/10.1186/s12934-024-02318-z
Blöbaum, Luisa, Torello Pianale, Luca, Olsson, Lisbeth, and Grünberger, Alexander. 2024. “Quantifying microbial robustness in dynamic environments using microfluidic single-cell cultivation”. Microbial Cell Factories 23 (1): 44.
Blöbaum, L., Torello Pianale, L., Olsson, L., and Grünberger, A. (2024). Quantifying microbial robustness in dynamic environments using microfluidic single-cell cultivation. Microbial Cell Factories 23:44.
Blöbaum, L., et al., 2024. Quantifying microbial robustness in dynamic environments using microfluidic single-cell cultivation. Microbial Cell Factories , 23(1): 44.
L. Blöbaum, et al., “Quantifying microbial robustness in dynamic environments using microfluidic single-cell cultivation”, Microbial Cell Factories , vol. 23, 2024, : 44.
Blöbaum, L., Torello Pianale, L., Olsson, L., Grünberger, A.: Quantifying microbial robustness in dynamic environments using microfluidic single-cell cultivation. Microbial Cell Factories . 23, : 44 (2024).
Blöbaum, Luisa, Torello Pianale, Luca, Olsson, Lisbeth, and Grünberger, Alexander. “Quantifying microbial robustness in dynamic environments using microfluidic single-cell cultivation”. Microbial Cell Factories 23.1 (2024): 44.

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