RT Journal Article SR Electronic T1 Exact Reconstruction of Gene Regulatory Networks using Compressive Sensing JF bioRxiv FD Cold Spring Harbor Laboratory SP 004242 DO 10.1101/004242 A1 Young Hwan Chang A1 Joe W. Gray A1 Claire Tomlin YR 2014 UL http://biorxiv.org/content/early/2014/04/20/004242.abstract AB Background We consider the problem of reconstructing a gene regulatory network structure from limited time series gene expression data, without any a priori knowledge of connectivity. We assume that the network is sparse, meaning the connectivity among genes is much less than full connectivity. We develop a method for network reconstruction based on compressive sensing, which takes advantage of the network’s sparseness.Results For the case in which all genes are accessible for measurement, and there is no measurement noise, we show that our method can be used to exactly reconstruct the network. For the more general problem, in which hidden genes exist and all measurements are contaminated by noise, we show that our method leads to reliable reconstruction. In both cases, coherence of the model is used to assess the ability to reconstruct the network and to design new experiments. For each problem, a set of numerical examples is presented.Conclusions The method provides a guarantee on how well the inferred graph structure represents the underlying system, reveals deficiencies in the data and model, and suggests experimental directions to remedy the deficiencies.