Title :
Control of protein concentrations in heterogeneous cell populations
Author :
Vignoni, A. ; Oyarzun, Diego A. ; Pico, J. ; Stan, G.-B.
Author_Institution :
Inst. d´Autom. i Inf. Ind., Univ. Politec. de Valencia, València, Spain
Abstract :
In this work we propose a synthetic gene circuit for controlling the variability in protein concentration at a population level. The circuit, based on the use of an intracellular nonlinear controller coupled to a cell-to-cell communication mechanism, allows for independent control of the mean and variance of a signalling molecule across cell population. Via a piecewise affine approximation of the nonlinearity, we provide set invariance results that imply the stability of the closed loop system. We also obtain closed-form expressions for the mean and variance as a function of the tuneable parameters of the controller. The predictions offered by the theoretical analysis are in agreement with numerical simulations performed with physiologically realistic parameters in Escherichia coli.
Keywords :
biochemistry; biocontrol; cellular biophysics; closed loop systems; genetics; microorganisms; molecular biophysics; nonlinear control systems; proteins; Escherichia coli; cell-to-cell communication mechanism; closed loop system stability; heterogeneous cell population; intracellular nonlinear controller; numerical simulations; piecewise affine approximation; population level; protein concentration control; signalling molecule; synthetic gene circuit; Approximation methods; Equations; Mathematical model; Proteins; Sociology; Statistics; Steady-state;
Conference_Titel :
Control Conference (ECC), 2013 European
Conference_Location :
Zurich
