Integrative Framework for Identification of Key Cell Identity Genes Uncovers
Integrative framework for identification of key cell PNAS PLUS identity genes uncovers determinants of ES cell identity and homeostasis Senthilkumar Cinghua,1, Sailu Yellaboinaa,b,c,1, Johannes M. Freudenberga,b, Swati Ghosha, Xiaofeng Zhengd, Andrew J. Oldfielda, Brad L. Lackfordd, Dmitri V. Zaykinb, Guang Hud,2, and Raja Jothia,b,2 aSystems Biology Section and dStem Cell Biology Section, Laboratory of Molecular Carcinogenesis, and bBiostatistics Branch, National Institute of Environmental Health Sciences, National Institutes of Health, Research Triangle Park, NC 27709; and cCR Rao Advanced Institute of Mathematics, Statistics, and Computer Science, Hyderabad, Andhra Pradesh 500 046, India Edited by Norbert Perrimon, Harvard Medical School and Howard Hughes Medical Institute, Boston, MA, and approved March 17, 2014 (received for review October 2, 2013) Identification of genes associated with specific biological pheno- (mESCs) for genes essential for the maintenance of ESC identity types is a fundamental step toward understanding the molecular resulted in only ∼8% overlap (8, 9), although many of the unique basis underlying development and pathogenesis. Although RNAi- hits in each screen were known or later validated to be real. The based high-throughput screens are routinely used for this task, lack of concordance suggest that these screens have not reached false discovery and sensitivity remain a challenge. Here we describe saturation (14) and that additional genes of importance remain a computational framework for systematic integration of published to be discovered. gene expression data to identify genes defining a phenotype of Motivated by the need for an alternative approach for iden- interest. We applied our approach to rank-order all genes based on tification of key cell identity genes, we developed a computa- their likelihood of determining ES cell (ESC) identity.
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