Multi-scale genetic dynamic modelling II: application to synthetic biology

Kirkilionis, Markus; Janus, Ulrich; Sbano, Luca

doi:10.1007/s12064-011-0126-z

Cited by 4 publications

(4 citation statements)

References 61 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Such models can be tested with data derived from measurements on different scales, and are therefore much better to test empirically. The framework described can also be interpreted as allowing to assign more or less automatically deterministic dynamics to given interaction diagrams, where the modeler can make choices whether a variable can have a continuous range, or a discrete range, [15,16].…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

An Averaging Principle for Combined Interaction Graphs — Connectivity and Applications to Genetic Switches

Kirkilionis

Sbano²

2010

Advs. Complex Syst.

Self Cite

View full text Add to dashboard Cite

Time-continuous dynamical systems defined on graphs are often used to model complex systems with many interacting components in a non-spatial context. In the reverse sense attaching meaningful dynamics to given 'interaction diagrams' is a central bottleneck problem in many application areas, especially in cell biology where various such diagrams with different conventions describing molecular regulation are presently in use. In most situations these diagrams can only be interpreted by the use of both discrete and continuous variables during the modelling process, corresponding to both deterministic and stochastic hybrid dynamics. The conventions in genetics are well-known, and therefore we use this field for illustration purposes. In [25] and [26] the authors showed that with the help of a multi-scale analysis stochastic systems with both continuous variables and finite state spaces can be approximated by dynamical systems whose leading order time evolution is given by a combination of ordinary differential equations (ODEs) and Markov chains. The leading order term in these dynamical systems is called average dynamics and turns out to be an adequate concept to analyse a class of simplified hybrid systems. Once the dynamics is defined the mutual interaction of both ODEs and Markov chains can be analysed through the (reverse) introduction of the so called Interaction Graph, a concept originally invented for time-continuous dynamical systems, see [5]. Here we transfer this graph concept to the average dynamics, which itself is introduced as an heuristic tool to construct models of reaction or contact networks. The graphical concepts introduced form the basis for any subsequent study of the qualitative properties of hybrid models in terms of connectivity and (feedback) loop formation. arXiv:0803.0635v3 [q-bio.MN]

show abstract

Section: Discussionmentioning

confidence: 99%

“…The evidence of the rhythms for this model is shown numerically. The modeling techniques described in this paper give also rise to model existing synthetic genomes from a dynamical perspective, with the hope to achieve that in future in a semi-automatic way once a sequence is known, see [15,16].…”

Section: Introductionmentioning

confidence: 99%

An Averaging Principle for Combined Interaction Graphs — Connectivity and Applications to Genetic Switches

Kirkilionis

Sbano²

2010

Advs. Complex Syst.

Self Cite

View full text Add to dashboard Cite

show abstract

“…This paper is intended as a general introduction to an approach aimed at studying systems (like a cell) whose processes take place at very different spatial, time and size scales (see [19][20][21]) involving different type of molecular "players". Some relevant applications of this approach can be found in [8][9][10]. The author would like to thank one of the referee for drawing his attention to [2,4,13] where the multiscale analysis is addressed from a more probabilistic point of view.…”

Section: Introductionmentioning

confidence: 99%

“…are of mass-action type, the average dynamics is no longer of that type and usually presents non-linear terms able, for instance, to describe those dynamical features usually termed generically as "nonlinear cooperativity". Novel applications of this approach to the study of synthetic genetic clock can be found in [9,10]; furthermore, the construction of the average dynamics has many features that appears in the modelling of molecular motors, see [1].…”

Section: Introductionmentioning

confidence: 99%

Multiscale Analysis in Many-Body Systems

Sbano¹

2012

Acta Appl Math

Self Cite

View full text Add to dashboard Cite

show abstract

Multimodality and Flexibility of Stochastic Gene Expression

et al. 2013

View full text Add to dashboard Cite

We consider a general class of mathematical models for stochastic gene expression where the transcription rate is allowed to depend on a promoter state variable that can take an arbitrary (finite) number of values. We provide the solution of the master equations in the stationary limit, based on a factorization of the stochastic transition matrix that separates timescales and relative interaction strengths, and we express its entries in terms of parameters that have a natural physical and/or biological interpretation. The solution illustrates the capacity of multiple states promoters to generate multimodal distributions of gene products, without the need for feedback. Furthermore, using the example of a three states promoter operating at low, high, and intermediate expression levels, we show that using multiple states operons will typically lead to a significant reduction of noise in the system. The underlying mechanism is that a three-states promoter can change its level of expression from low to high by passing through an intermediate state with a much smaller increase of fluctuations than by means of a direct transition.

show abstract

Multi-scale genetic dynamic modelling II: application to synthetic biology

Cited by 4 publications

References 61 publications

An Averaging Principle for Combined Interaction Graphs — Connectivity and Applications to Genetic Switches

An Averaging Principle for Combined Interaction Graphs — Connectivity and Applications to Genetic Switches

Multiscale Analysis in Many-Body Systems

Multimodality and Flexibility of Stochastic Gene Expression

Contact Info

Product

Resources

About