Towards real-time control of gene expression: Controlling the hog signaling cascade

Jannis Uhlendorf; Samuel Bottani; François Fages; Pascal Hersen; Gregory Batt

Towards real-time control of gene expression: Controlling the hog signaling cascade

Jannis Uhlendorf
, Samuel Bottani
, François Fages
, Pascal Hersen
, Gregory Batt

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

To decipher the dynamical functioning of cellular processes, the method of choice is to observe the time response of cells subjected to well controlled perturbations in time and amplitude. Efficient methods, based on molecular biology, are available to monitor quantitatively and dynamically many cellular processes. In contrast, it is still a challenge to perturb cellular processes-such as gene expression-in a precise and controlled manner. Here, we propose a first step towards in vivo control of gene expression: in real-time, we dynamically control the activity of a yeast signaling cascade thanks to an experimental platform combining a micro-fluidic device, an epi-fluorescence microscope and software implementing control approaches. We experimentally demonstrate the feasibility of this approach, and we investigate computationally some possible improvements of our control strategy using a model of the yeast osmo-adaptation response fitted to our data.

Original language	English
Title of host publication	Pacific Symposium on Biocomputing 2011, PSB 2011
Publisher	World Scientific
Pages	338-349
Number of pages	12
ISBN (Print)	9814335053, 9789814335058
Publication status	Published - 1 Jan 2011
Externally published	Yes
Event	16th Pacific Symposium on Biocomputing, PSB 2011 - Kohala Coast, HI, United States Duration: 3 Jan 2011 → 7 Jan 2011

Publication series

Name	Pacific Symposium on Biocomputing 2011, PSB 2011

Conference

Conference	16th Pacific Symposium on Biocomputing, PSB 2011
Country/Territory	United States
City	Kohala Coast, HI
Period	3/01/11 → 7/01/11

Cite this

@inproceedings{010aec8228014b94892502ecdcace227,

title = "Towards real-time control of gene expression: Controlling the hog signaling cascade",

abstract = "To decipher the dynamical functioning of cellular processes, the method of choice is to observe the time response of cells subjected to well controlled perturbations in time and amplitude. Efficient methods, based on molecular biology, are available to monitor quantitatively and dynamically many cellular processes. In contrast, it is still a challenge to perturb cellular processes-such as gene expression-in a precise and controlled manner. Here, we propose a first step towards in vivo control of gene expression: in real-time, we dynamically control the activity of a yeast signaling cascade thanks to an experimental platform combining a micro-fluidic device, an epi-fluorescence microscope and software implementing control approaches. We experimentally demonstrate the feasibility of this approach, and we investigate computationally some possible improvements of our control strategy using a model of the yeast osmo-adaptation response fitted to our data.",

author = "Jannis Uhlendorf and Samuel Bottani and Fran{\c c}ois Fages and Pascal Hersen and Gregory Batt",

year = "2011",

month = jan,

day = "1",

language = "English",

isbn = "9814335053",

series = "Pacific Symposium on Biocomputing 2011, PSB 2011",

publisher = "World Scientific",

pages = "338--349",

booktitle = "Pacific Symposium on Biocomputing 2011, PSB 2011",

note = "16th Pacific Symposium on Biocomputing, PSB 2011 ; Conference date: 03-01-2011 Through 07-01-2011",

}

Uhlendorf, J, Bottani, S, Fages, F, Hersen, P & Batt, G 2011, Towards real-time control of gene expression: Controlling the hog signaling cascade. in Pacific Symposium on Biocomputing 2011, PSB 2011. Pacific Symposium on Biocomputing 2011, PSB 2011, World Scientific, pp. 338-349, 16th Pacific Symposium on Biocomputing, PSB 2011, Kohala Coast, HI, United States, 3/01/11.

Towards real-time control of gene expression: Controlling the hog signaling cascade. / Uhlendorf, Jannis; Bottani, Samuel; Fages, François et al.
Pacific Symposium on Biocomputing 2011, PSB 2011. World Scientific, 2011. p. 338-349 (Pacific Symposium on Biocomputing 2011, PSB 2011).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Towards real-time control of gene expression

T2 - 16th Pacific Symposium on Biocomputing, PSB 2011

AU - Uhlendorf, Jannis

AU - Bottani, Samuel

AU - Fages, François

AU - Hersen, Pascal

AU - Batt, Gregory

PY - 2011/1/1

Y1 - 2011/1/1

N2 - To decipher the dynamical functioning of cellular processes, the method of choice is to observe the time response of cells subjected to well controlled perturbations in time and amplitude. Efficient methods, based on molecular biology, are available to monitor quantitatively and dynamically many cellular processes. In contrast, it is still a challenge to perturb cellular processes-such as gene expression-in a precise and controlled manner. Here, we propose a first step towards in vivo control of gene expression: in real-time, we dynamically control the activity of a yeast signaling cascade thanks to an experimental platform combining a micro-fluidic device, an epi-fluorescence microscope and software implementing control approaches. We experimentally demonstrate the feasibility of this approach, and we investigate computationally some possible improvements of our control strategy using a model of the yeast osmo-adaptation response fitted to our data.

AB - To decipher the dynamical functioning of cellular processes, the method of choice is to observe the time response of cells subjected to well controlled perturbations in time and amplitude. Efficient methods, based on molecular biology, are available to monitor quantitatively and dynamically many cellular processes. In contrast, it is still a challenge to perturb cellular processes-such as gene expression-in a precise and controlled manner. Here, we propose a first step towards in vivo control of gene expression: in real-time, we dynamically control the activity of a yeast signaling cascade thanks to an experimental platform combining a micro-fluidic device, an epi-fluorescence microscope and software implementing control approaches. We experimentally demonstrate the feasibility of this approach, and we investigate computationally some possible improvements of our control strategy using a model of the yeast osmo-adaptation response fitted to our data.

M3 - Conference contribution

C2 - 21121061

AN - SCOPUS:80053155088

SN - 9814335053

SN - 9789814335058

T3 - Pacific Symposium on Biocomputing 2011, PSB 2011

SP - 338

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BT - Pacific Symposium on Biocomputing 2011, PSB 2011

PB - World Scientific

Y2 - 3 January 2011 through 7 January 2011

ER -

Towards real-time control of gene expression: Controlling the hog signaling cascade

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