Mixed-Model Reanalysis of Primate Data Suggests Tissue and Species Biases in Oligonucleotide-Based Gene Expression Profiles

Mixed-Model Reanalysis of Primate Data Suggests Tissue and Species Biases in Oligonucleotide-Based Gene Expression Profiles

Wen-Ping Hsieh^a, Tzu-Ming Chu^b, Russell D. Wolfinger^b, and Greg Gibson^a
^a Bioinformatics Research Center, North Carolina State University, Raleigh, North Carolina 27695
^b SAS Institute, Cary, North Carolina 27513

Corresponding author: Greg Gibson, Gardner Hall, North Carolina State University, Raleigh, NC 27695-7614., ggibson{at}unity.ncsu.edu (E-mail)

Communicating editor: M. FELDMAN

An emerging issue in evolutionary genetics is whether it ispossible to use gene expression profiling to identify genesthat are associated with morphological, physiological, or behavioraldivergence between species and whether these genes have undergonepositive selection. Some of these questions were addressed ina recent study (ENARD et al. 2002 ) of the difference in geneexpression among human, chimp, and orangutan, which suggestedan accelerated rate of divergence in gene expression in thehuman brain relative to liver. Reanalysis of the Affymetrixdata set using analysis of variance methods to quantify thecontributions of individuals and species to variation in expressionof 12,600 genes indicates that as much as one-quarter of thegenome shows divergent expression between primate species atthe 5% level. The magnitude of fold change ranges from 1.2-foldup to 8-fold. Similar conclusions apply to reanalysis of ENARDet al.. 2002 parallel murine data set. However, biases inherentto short oligonucleotide microarray technology may account forsome of the tissue and species effects. At high significancelevels, more differences were observed in the liver than inthe brain in each of the pairwise species comparisons, so itis not clear that expression divergence is accelerated in thehuman brain. Further, there is an apparent bias toward upregulationof gene expression in the brain in both primates and mice, whereasgenes are equally likely to be up- or downregulated in the liverwhen these species diverge. A small subset of genes that arecandidates for adaptive divergence may be identified on thebasis of a high ratio of interspecific to intraspecific divergence.

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