Dynamic changes in the human methylome during differentiation
University of California San Diego Medical Center · Reproductive Science Medical Center · +4 more institutions
Abstract
DNA methylation is a critical epigenetic regulator in mammalian development. Here, we present a whole-genome comparative view of DNA methylation using bisulfite sequencing of three cultured cell types representing progressive stages of differentiation: human embryonic stem cells (hESCs), a fibroblastic differentiated derivative of the hESCs, and neonatal fibroblasts. As a reference, we compared our maps with a methylome map of a fully differentiated adult cell type, mature peripheral blood mononuclear cells (monocytes). We observed many notable common and cell-type-specific features among all cell types. Promoter hypomethylation (both CG and CA) and higher levels of gene body methylation were positively…
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Authors
11- LCLouise C. LaurentCorresponding
University of California San Diego Medical Center, Reproductive Science Medical Center
- EWEleanor Wong
National University of Singapore, Genome Institute of Singapore
- GLGuoliang Li
Genome Institute of Singapore
- THTien Huynh
IBM Research - Thomas J. Watson Research Center
- ATAristotelis Tsirigos
IBM Research - Thomas J. Watson Research Center
Topics & keywords
- Biology
- DNA methylation
- Methylation
- Epigenetics of physical exercise
- Cellular differentiation
- Epigenetics
- Epigenomics
- RNA-Directed DNA Methylation