Green fluorescent protein (GFP) leakage from microbial biosensors provides useful information for the evaluation of the scale-down effect

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Standard

Green fluorescent protein (GFP) leakage from microbial biosensors provides useful information for the evaluation of the scale-down effect. / Delvigne, Frank; Brognaux, Alison; Francis, Frédéric; Twizere, Jean-Claude; Gorret, Nathalie; Sørensen, Søren Johannes; Thonart, Philippe.

In: Biotechnology Journal, Vol. 6, No. 8, 2011, p. 968-978.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Delvigne, F, Brognaux, A, Francis, F, Twizere, J-C, Gorret, N, Sørensen, SJ & Thonart, P 2011, 'Green fluorescent protein (GFP) leakage from microbial biosensors provides useful information for the evaluation of the scale-down effect', Biotechnology Journal, vol. 6, no. 8, pp. 968-978. https://doi.org/10.1002/biot.201000410

APA

Delvigne, F., Brognaux, A., Francis, F., Twizere, J-C., Gorret, N., Sørensen, S. J., & Thonart, P. (2011). Green fluorescent protein (GFP) leakage from microbial biosensors provides useful information for the evaluation of the scale-down effect. Biotechnology Journal, 6(8), 968-978. https://doi.org/10.1002/biot.201000410

Vancouver

Delvigne F, Brognaux A, Francis F, Twizere J-C, Gorret N, Sørensen SJ et al. Green fluorescent protein (GFP) leakage from microbial biosensors provides useful information for the evaluation of the scale-down effect. Biotechnology Journal. 2011;6(8):968-978. https://doi.org/10.1002/biot.201000410

Author

Delvigne, Frank ; Brognaux, Alison ; Francis, Frédéric ; Twizere, Jean-Claude ; Gorret, Nathalie ; Sørensen, Søren Johannes ; Thonart, Philippe. / Green fluorescent protein (GFP) leakage from microbial biosensors provides useful information for the evaluation of the scale-down effect. In: Biotechnology Journal. 2011 ; Vol. 6, No. 8. pp. 968-978.

Bibtex

@article{bc425b964cc7491abbcd80a46ed4d006,
title = "Green fluorescent protein (GFP) leakage from microbial biosensors provides useful information for the evaluation of the scale-down effect",
abstract = "Mixing deficiencies can be potentially detected by the use of a dedicated whole cell microbial biosensor. In this work, a csiE promoter induced under carbon-limited conditions was involved in the elaboration of such biosensor. The cisE biosensor exhibited interesting response after up and down-shift of the dilution rate in chemostat mode. Glucose limitation was accompanied by green fluorescent protein (GFP) leakage to the extracellular medium. In order to test the responsiveness of microbial biosensors to substrate fluctuations in large-scale, a scale-down reactor (SDR) experiment was performed. The glucose fluctuations were characterized at the single cell level and tend to decrease the induction of GFP. Simulations run on the basis of a stochastic hydrodynamic model have shown the variability and the frequencies at which biosensors are exposed to glucose gradient in the SDR. GFP leakage was observed to a great extent in the case of a culture operated in well-mixed fed-batch mode, by comparison with those operated in SDR. GFP leakage seems to be correlated to a higher membrane permeability, confirming previous studies highlighting a better cell viability in cultures operated in a fluctuating environment. Our results suggest that GFP leakage could be used in parallel to the normal GFP biosensor function in order to assess microbial viability in process conditions",
author = "Frank Delvigne and Alison Brognaux and Fr{\'e}d{\'e}ric Francis and Jean-Claude Twizere and Nathalie Gorret and S{\o}rensen, {S{\o}ren Johannes} and Philippe Thonart",
year = "2011",
doi = "10.1002/biot.201000410",
language = "English",
volume = "6",
pages = "968--978",
journal = "Biotechnology Journal",
issn = "1860-6768",
publisher = "Wiley - V C H Verlag GmbH & Co. KGaA",
number = "8",

}

RIS

TY - JOUR

T1 - Green fluorescent protein (GFP) leakage from microbial biosensors provides useful information for the evaluation of the scale-down effect

AU - Delvigne, Frank

AU - Brognaux, Alison

AU - Francis, Frédéric

AU - Twizere, Jean-Claude

AU - Gorret, Nathalie

AU - Sørensen, Søren Johannes

AU - Thonart, Philippe

PY - 2011

Y1 - 2011

N2 - Mixing deficiencies can be potentially detected by the use of a dedicated whole cell microbial biosensor. In this work, a csiE promoter induced under carbon-limited conditions was involved in the elaboration of such biosensor. The cisE biosensor exhibited interesting response after up and down-shift of the dilution rate in chemostat mode. Glucose limitation was accompanied by green fluorescent protein (GFP) leakage to the extracellular medium. In order to test the responsiveness of microbial biosensors to substrate fluctuations in large-scale, a scale-down reactor (SDR) experiment was performed. The glucose fluctuations were characterized at the single cell level and tend to decrease the induction of GFP. Simulations run on the basis of a stochastic hydrodynamic model have shown the variability and the frequencies at which biosensors are exposed to glucose gradient in the SDR. GFP leakage was observed to a great extent in the case of a culture operated in well-mixed fed-batch mode, by comparison with those operated in SDR. GFP leakage seems to be correlated to a higher membrane permeability, confirming previous studies highlighting a better cell viability in cultures operated in a fluctuating environment. Our results suggest that GFP leakage could be used in parallel to the normal GFP biosensor function in order to assess microbial viability in process conditions

AB - Mixing deficiencies can be potentially detected by the use of a dedicated whole cell microbial biosensor. In this work, a csiE promoter induced under carbon-limited conditions was involved in the elaboration of such biosensor. The cisE biosensor exhibited interesting response after up and down-shift of the dilution rate in chemostat mode. Glucose limitation was accompanied by green fluorescent protein (GFP) leakage to the extracellular medium. In order to test the responsiveness of microbial biosensors to substrate fluctuations in large-scale, a scale-down reactor (SDR) experiment was performed. The glucose fluctuations were characterized at the single cell level and tend to decrease the induction of GFP. Simulations run on the basis of a stochastic hydrodynamic model have shown the variability and the frequencies at which biosensors are exposed to glucose gradient in the SDR. GFP leakage was observed to a great extent in the case of a culture operated in well-mixed fed-batch mode, by comparison with those operated in SDR. GFP leakage seems to be correlated to a higher membrane permeability, confirming previous studies highlighting a better cell viability in cultures operated in a fluctuating environment. Our results suggest that GFP leakage could be used in parallel to the normal GFP biosensor function in order to assess microbial viability in process conditions

U2 - 10.1002/biot.201000410

DO - 10.1002/biot.201000410

M3 - Journal article

C2 - 21695786

VL - 6

SP - 968

EP - 978

JO - Biotechnology Journal

JF - Biotechnology Journal

SN - 1860-6768

IS - 8

ER -

ID: 33964018