Comparison of gene regulatory networks via steady-state trajectories. Academic Article uri icon

abstract

  • The modeling of genetic regulatory networks is becoming increasingly widespread in the study of biological systems. In the abstract, one would prefer quantitatively comprehensive models, such as a differential-equation model, to coarse models; however, in practice, detailed models require more accurate measurements for inference and more computational power to analyze than coarse-scale models. It is crucial to address the issue of model complexity in the framework of a basic scientific paradigm: the model should be of minimal complexity to provide the necessary predictive power. Addressing this issue requires a metric by which to compare networks. This paper proposes the use of a classical measure of difference between amplitude distributions for periodic signals to compare two networks according to the differences of their trajectories in the steady state. The metric is applicable to networks with both continuous and discrete values for both time and state, and it possesses the critical property that it allows the comparison of networks of different natures. We demonstrate application of the metric by comparing a continuous-valued reference network against simplified versions obtained via quantization.

published proceedings

  • EURASIP J Bioinform Syst Biol

author list (cited authors)

  • Brun, M., Kim, S., Choi, W., & Dougherty, E. R.

citation count

  • 8

complete list of authors

  • Brun, Marcel||Kim, Seungchan||Choi, Woonjung||Dougherty, Edward R

publication date

  • July 2007