Journal article
Vitamin C promotes widespread yet specific DNA demethylation of the epigenome in human embryonic stem cells
TL Chung, RM Brena, G Kolle, SM Grimmond, BP Berman, PW Laird, MF Pera, EJ Wolvetang
Stem Cells | WILEY | Published : 2010
DOI: 10.1002/stem.493
Abstract
Vitamin C (ascorbate) is a widely used medium supplement in embryonic stem cell culture. Here, we show that ascorbate causes widespread, consistent, and remarkably specific DNA demethylation of 1,847 genes in human embryonic stem cells (hESCs), including important stem cell genes, with a clear bias toward demethylation at CpG island boundaries. We show that a subset of these DNA demethylated genes displays concomitant gene expression changes and that the position of the demethylated CpGs relative to the transcription start site is correlated to such changes. We further show that the ascorbate-demethylated gene set not only overlaps with gene sets that have bivalent marks, but also with the g..
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Awarded by California Institute for Regenerative Medicine
Awarded by Susan G. Komen Foundation
Funding Acknowledgements
We thank the human ES cell Core facility of the Australian Stem Cell Centre for their technical support. This work was supported by the Australian Stem Cell Centre, the California Institute for Regenerative Medicine (RS1-00408, to P. W. L.), and postdoctoral fellowship from the Susan G. Komen Foundation (KG080103, to R.M.B.).