Kinetics of the cellular intake of a gene expression inducer at high concentrations in the media

Huy Tran; Samuel M.D. Oliveira; Andre S. Ribeiro

Abstract

From in vivo single-event measurements of the transient and steady-state transcription activity of a single-copy lac-ara-1 promoter in Escherichia coli, we study the intake kinetics of its inducer (IPTG) from the media. We show that the empirical data is well-fit by a model of intake that assumes a bilayer membrane coupled to a stochastic, multi-step transcription process. Next, using this model, we show that for a wide range of extracellular inducer levels (up to 1.25mM) the intake process is diffusive-like, suggesting unsaturated membrane permeability. Finally, we infer from the model that an inducer molecule takes, on average, 31.7 minutes to travel from the periplasm to the cytoplasm, which suggests that this event is a key rate-limiting process in the response time of the cells to the appearance of inducers in the media. The methodology here proposed should be of assistance to future studies of cellular intake mechanisms at the single-cell level.

Original language	English
Publication status	Published - 20 Mar 2015
Publication type	Not Eligible
Event	2015 Tampere Meeting on Single Cell Measurements and Analysis - Tampere, Finland Duration: 30 Mar 2015 → 30 Mar 2015

Conference

Conference	2015 Tampere Meeting on Single Cell Measurements and Analysis
Country/Territory	Finland
City	Tampere
Period	30/03/15 → 30/03/15

Keywords

single cell
intake kinetics
gene expression inducer
Escherichia coli

Cite this

@conference{66454d131a764014ae8090a7ee0733fe,

title = "Kinetics of the cellular intake of a gene expression inducer at high concentrations in the media",

abstract = "From in vivo single-event measurements of the transient and steady-state transcription activity of a single-copy lac-ara-1 promoter in Escherichia coli, we study the intake kinetics of its inducer (IPTG) from the media. We show that the empirical data is well-fit by a model of intake that assumes a bilayer membrane coupled to a stochastic, multi-step transcription process. Next, using this model, we show that for a wide range of extracellular inducer levels (up to 1.25mM) the intake process is diffusive-like, suggesting unsaturated membrane permeability. Finally, we infer from the model that an inducer molecule takes, on average, 31.7 minutes to travel from the periplasm to the cytoplasm, which suggests that this event is a key rate-limiting process in the response time of the cells to the appearance of inducers in the media. The methodology here proposed should be of assistance to future studies of cellular intake mechanisms at the single-cell level.",

keywords = "single cell, intake kinetics, gene expression inducer, Escherichia coli",

author = "Huy Tran and Oliveira, \{Samuel M.D.\} and Ribeiro, \{Andre S.\}",

note = "xabstract; 2015 Tampere Meeting on Single Cell Measurements and Analysis ; Conference date: 30-03-2015 Through 30-03-2015",

year = "2015",

month = mar,

day = "20",

language = "English",

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TY - CONF

T1 - Kinetics of the cellular intake of a gene expression inducer at high concentrations in the media

AU - Tran, Huy

AU - Oliveira, Samuel M.D.

AU - Ribeiro, Andre S.

N1 - xabstract

PY - 2015/3/20

Y1 - 2015/3/20

N2 - From in vivo single-event measurements of the transient and steady-state transcription activity of a single-copy lac-ara-1 promoter in Escherichia coli, we study the intake kinetics of its inducer (IPTG) from the media. We show that the empirical data is well-fit by a model of intake that assumes a bilayer membrane coupled to a stochastic, multi-step transcription process. Next, using this model, we show that for a wide range of extracellular inducer levels (up to 1.25mM) the intake process is diffusive-like, suggesting unsaturated membrane permeability. Finally, we infer from the model that an inducer molecule takes, on average, 31.7 minutes to travel from the periplasm to the cytoplasm, which suggests that this event is a key rate-limiting process in the response time of the cells to the appearance of inducers in the media. The methodology here proposed should be of assistance to future studies of cellular intake mechanisms at the single-cell level.

AB - From in vivo single-event measurements of the transient and steady-state transcription activity of a single-copy lac-ara-1 promoter in Escherichia coli, we study the intake kinetics of its inducer (IPTG) from the media. We show that the empirical data is well-fit by a model of intake that assumes a bilayer membrane coupled to a stochastic, multi-step transcription process. Next, using this model, we show that for a wide range of extracellular inducer levels (up to 1.25mM) the intake process is diffusive-like, suggesting unsaturated membrane permeability. Finally, we infer from the model that an inducer molecule takes, on average, 31.7 minutes to travel from the periplasm to the cytoplasm, which suggests that this event is a key rate-limiting process in the response time of the cells to the appearance of inducers in the media. The methodology here proposed should be of assistance to future studies of cellular intake mechanisms at the single-cell level.

KW - single cell

KW - intake kinetics

KW - gene expression inducer

KW - Escherichia coli

M3 - Abstract

T2 - 2015 Tampere Meeting on Single Cell Measurements and Analysis

Y2 - 30 March 2015 through 30 March 2015

ER -

Kinetics of the cellular intake of a gene expression inducer at high concentrations in the media

Abstract

Conference

Keywords

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