@misc{10481/59039,
year = {2018},
month = {8},
url = {http://hdl.handle.net/10481/59039},
abstract = {We analyse a continuum model for genetic circuits based on a partial integrodifferential
equation initially proposed in Friedman et al. (Phys RevLett 97(16):168302,
2006) as an approximation of a chemical master equation. We use entropy methods
to show exponentially fast convergence to equilibrium for this model with explicit
bounds. The asymptotic equilibration for the multidimensional case of more than one
gene is also obtained under suitable assumptions on the equilibrium stationary states.
The asymptotic equilibration property for networks involving one and more than one
gene is investigated via numerical simulations.},
organization = {J. A. Cañizo and J. A. Carrillo were supported by Projects MTM2014-52056-P and
MTM2017-85067-P, funded by the Spanish government and the European Regional Development Fund.
J. A. Carrillo was partially supported by the EPSRC Grant Number EP/P031587/1. M. Pájaro acknowledges
support from Spanish MINECO fellowships BES-2013-063112, EEBB-I-16-10540 and EEBB-I-17-12182.},
publisher = {Springer Nature},
title = {Exponential equilibration of genetic circuits using entropy methods},
doi = {10.1007/s00285-018-1277-z},
author = {Cañizo Rincón, José Alfredo and Carrillo, José A. and Pájaro, Manuel},
}