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Learning gene regulatory networks from gene expression measurements using non-parametric molecular kinetics

Abstract

Regulation of gene expression is fundamental to the operation of a cell. Revealing the structure and dynamics of a gene regulatory network (GRN) is of great interest and represents a considerably challenging computational problem. The GRN estimation problem is complicated by the fact that the number of gene expression measurements is typically extremely small when compared to the dimension of the biological system. Further, because gene regulation process is intrinsically complex, commonly used parametric models can provide too simple description of the underlying phenomena and, thus, can be unreliable. In this paper, we propose a novel methodology for the inference of GRNs from time-series and steady-state gene expression measurements. The presented framework is based on the use of Bayesian analysis with ordinary differential equations and Gaussian process nonparametric modeling for the transcriptional level regulation.
The performance of the proposed structure inference method is evaluated using a recently published in vivo data set. By comparing the obtained results with those of existing ODE-based inference methods we demonstrate that the proposed method provides more accurate network structure learning. The predictive capabilities of the method are examined by splitting the data set into training set and test set and by predicting the test set based on the training set.
A MATLAB implementation of the method will be available from upon publication.

Supplementary material

The method presented and implemented in this study is available as a MATLAB routine

Contact

Tarmo Äijö
Department of Signal Processing
Tampere University of Technology
P.O.Box 553
FIN-33101 Tampere
Finland
firstname.lastname (at) tut.fi
http://www.cs.tut.fi/~aijo2/