A variety of methods and algorithms have recently been employed in the analysis of gene expression data, including reverse-engineering and knowledge-based pathway modeling, semantic gene similarity, network analysis and clustering. These methods and algorithms address different subparts of the same overall challenge and need to be applied in combination to address predictive genomic analysis as a whole. In this paper, we present an integrated approach to predictive genomic analysis that achieves this objective and describe an application of the approach to the study of neuroprotection in stroke.
Revised: September 24, 2010 |
Published: August 2, 2010
Citation
McDermott J.E., A.P. Sanfilippo, R.C. Taylor, R.L. Baddeley, R.M. Riensche, and R.S. Jensen. 2010.An Integrated Approach to Predictive Genomic Analytics. In Proceedings of the First ACM International Conference on Bioinformatics and Computational Biology, 390-393. New York, New York:Association for Computing Machinery.PNNL-SA-72871.doi:10.1145/1854776.1854837