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Computer Research and Modeling, 2018, Volume 10, Issue 2, Pages 241–259
DOI: https://doi.org/10.20537/2076-7633-2018-10-2-241-259
(Mi crm163)
 

This article is cited in 3 scientific papers (total in 3 papers)

ANALYSIS AND MODELING OF COMPLEX LIVING SYSTEMS

Repressilator with time-delayed gene expression. Part I. Deterministic description

D. A. Bratsun, E. S. Lorgov, A. O. Poluyanov

Perm National Research Polytechnic University, 11B Professor Pozdeev st., Perm, 614990, Russia
References:
Abstract: The repressor is the first genetic regulatory network in synthetic biology, which was artificially constructed in 2000. It is a closed network of three genetic element — $lacI$, $\lambda cI$ and $tetR$, — which have a natural origin, but are not found in nature in such a combination. The promoter of each of the three genes controls the next cistron via the negative feedback, suppressing the expression of the neighboring gene. In this paper, the nonlinear dynamics of a modified repressilator, which has time delays in all parts of the regulatory network, has been studied for the first time. Delay can be both natural, i.e. arises during the transcription/translation of genes due to the multistage nature of these processes, and artificial, i.e. specially to be introduced into the work of the regulatory network using synthetic biology technologies. It is assumed that the regulation is carried out by proteins being in a dimeric form. The considered repressilator has two more important modifications: the location on the same plasmid of the gene $gfp$, which codes for the fluorescent protein, and also the presence in the system of a DNA sponge. In the paper, the nonlinear dynamics has been considered within the framework of the deterministic description. By applying the method of decomposition into fast and slow motions, the set of nonlinear differential equations with delay on a slow manifold has been obtained. It is shown that there exists a single equilibrium state which loses its stability in an oscillatory manner at certain values of the control parameters. For a symmetric repressilator, in which all three genes are identical, an analytical solution for the neutral Andronov–Hopf bifurcation curve has been obtained. For the general case of an asymmetric repressilator, neutral curves are found numerically. It is shown that the asymmetric repressor generally is more stable, since the system is oriented to the behavior of the most stable element in the network. Nonlinear dynamic regimes arising in a repressilator with increase of the parameters are studied in detail. It was found that there exists a limit cycle corresponding to relaxation oscillations of protein concentrations. In addition to the limit cycle, we found the slow manifold not associated with above cycle. This is the long-lived transitional regime, which reflects the process of long-term synchronization of pulsations in the work of individual genes. The obtained results are compared with the experimental data known from the literature. The place of the model proposed in the present work among other theoretical models of the repressilator is discussed.
Keywords: repressilator, time delay, oscillations, gene regulation, synthetic biology.
Received: 19.03.2018
Revised: 20.03.2018
Accepted: 26.03.2018
Document Type: Article
UDC: 517.958:57
Language: Russian
Citation: D. A. Bratsun, E. S. Lorgov, A. O. Poluyanov, “Repressilator with time-delayed gene expression. Part I. Deterministic description”, Computer Research and Modeling, 10:2 (2018), 241–259
Citation in format AMSBIB
\Bibitem{BraLorPol18}
\by D.~A.~Bratsun, E.~S.~Lorgov, A.~O.~Poluyanov
\paper Repressilator with time-delayed gene expression. Part I. Deterministic description
\jour Computer Research and Modeling
\yr 2018
\vol 10
\issue 2
\pages 241--259
\mathnet{http://mi.mathnet.ru/crm163}
\crossref{https://doi.org/10.20537/2076-7633-2018-10-2-241-259}
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  • https://www.mathnet.ru/eng/crm/v10/i2/p241
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