Title :
Classification of gene expression data using PCA-based fault detection and identification
Author :
Josserand, Timothy M.
Author_Institution :
Genomic Signal Process. Group, Univ. of Texas at Austin, Austin, TX
Abstract :
This paper introduces a simple and robust method for the classification of significantly expressed genes in high throughput microarray measurements of a cellpsilas transcriptome. The technique has its origins in PCA-based fault detection and isolation (FDI) systems engineering. PCA-FDI is a data-driven procedure that can be used to isolate gene expression profiles associated with anomalous cell function by projecting target assays onto a dasiaresidualpsila subspace orthogonal to a set of PCA coordinates extracted from microarray data collected under normative cell conditions. The method is robust to noise and disturbances, and is insensitive to natural variation due to nominal cell functioning. The approach is demonstrated on a sequence of simulated gene regulatory net work (GRN) time-series expression profiles.
Keywords :
biology computing; genetics; principal component analysis; PCA-FDI procedure; data classification; fault detection; fault identification; gene expression; gene regulatory net work; microarray; prinicipal component analysis; time series; transcriptome; Bioinformatics; Data mining; Fault detection; Fault diagnosis; Gene expression; Genomics; Principal component analysis; Systems engineering and theory; Testing; Training data;
Conference_Titel :
Genomic Signal Processing and Statistics, 2008. GENSiPS 2008. IEEE International Workshop on
Conference_Location :
Phoenix, AZ
Print_ISBN :
978-1-4244-2371-2
Electronic_ISBN :
978-1-4244-2372-9
DOI :
10.1109/GENSIPS.2008.4555677
