Department of Biology
DDGni: Dynamic delay gene-network inference from high-temporal data using gapped local alignment
Motivation: Inferring gene-regulatory networks is very crucial in decoding various complex mechanisms in biological systems. Synthesis of a fully functional transcriptional factor/protein from DNA involves series of reactions, leading to a delay in gene regulation. The complexity increases with the dynamic delay induced by other small molecules involved in gene regulation, and noisy cellular environment. The dynamic delay in gene regulation is quite evident in high-temporal live cell lineage-imaging data. Although a number of gene-network-inference methods are proposed, most of them ignore the associated dynamic time delay.Results: Here, we propose DDGni (dynamic delay gene-network inference), a novel gene-network-inference algorithm based on the gapped local alignment of gene-expression profiles. The local alignment can detect short-term gene regulations, that are usually overlooked by traditional correlation and mutual Information based methods. DDGni uses 'gaps' to handle the dynamic delay and non-uniform sampling frequency in high-temporal data, like live cell imaging data. Our algorithm is evaluated on synthetic and yeast cell cycle data, and Caenorhabditis elegans live cell imaging data against other prominent methods. The area under the curve of our method is significantly higher when compared to other methods on all three datasets.Availability: The program, datasets and supplementary files are available at http://www.jjwanglab.org/DDGni/.Contact: Supplementary Information: Supplementary data are available at Bioinformatics online. © 2013 The Author 2013. Published by Oxford University Press. All rights reserved. For Permissions, please e-mail: email@example.com.
Source Publication Title
Oxford University Press
Yalamanchili, Hari Krishna, Bin Yan, Mulin Jun Li, Jing Qin, Zhongying Zhao, Francis Y.L. Chin, and Junwen Wang. "DDGni: Dynamic delay gene-network inference from high-temporal data using gapped local alignment." Bioinformatics 30.3 (2014): 377-383.