As a critical process during embryonic development, cancer progression and cell fate conversions, epithelial-mesenchymal transition (EMT) has been extensively studied over the last several decades. To further understand the nature of EMT, we performed meta-analysis of multiple microarray datasets to identify the related generic signature. In this study, 24 human and 17 mouse microarray datasets were integrated to identify conserved gene expression changes in different types of EMT. Our integrative analysis revealed that there is low agreement among the list of the identified signature genes and three other lists in previous studies. Since removing the datasets with weakly-induced EMT from the analysis did not significantly improve the overlapping in the signature-gene lists, we hypothesized the existence of different types of EMT. This hypothesis was further supported by the grouping of 74 human EMT-induction samples into five distinct clusters, and the identification of distinct pathways in these different clusters of EMT samples. The five clusters of EMT-induction samples also improves the understanding of the characteristics of different EMT types. Therefore, we concluded the existence of different types of EMT was the possible reason for its complex role in multiple biological processes.

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gene expression changes mouse microarray datasets biological cell fate conversions epithelialmesenchymal transition emt embryonic development cancer progression emt types human emtinduction samples

Wei Zhang,Hao Sun,Xiao Yang,Hui Zheng,Rui Kuang,Lining Liang,Mengdan Zhang,.Meta-Analysis of EMT Datasets Reveals Different Types of EMT.. 11 (6),.

Wei Zhang,Hao Sun,Xiao Yang,Hui Zheng,Rui Kuang,Lining Liang,Mengdan Zhang,"Meta-Analysis of EMT Datasets Reveals Different Types of EMT." 11

Wei Zhang,Hao Sun,Xiao Yang,Hui Zheng,Rui Kuang,Lining Liang,Mengdan Zhang,"Meta-Analysis of EMT Datasets Reveals Different Types of EMT."