Donor cell type can influence the epigenome and differentiation potential of human induced pluripotent stem cells
K Kim, R Zhao, A Doi, K Ng, J Unternaehrer… - Nature …, 2011 - nature.com
Nature biotechnology, 2011•nature.com
We compared bona fide human induced pluripotent stem cells (iPSCs) derived from
umbilical cord blood (CB) cells and neonatal keratinocytes (K). As a consequence of both
incomplete erasure of tissue-specific methylation and aberrant de novo methylation, CB-
iPSCs and K-iPSCs were distinct in genome-wide DNA methylation profiles and
differentiation potential. Extended passage of some iPSC clones in culture did not improve
their epigenetic resemblance to embryonic stem cells, implying that some human iPSCs …
umbilical cord blood (CB) cells and neonatal keratinocytes (K). As a consequence of both
incomplete erasure of tissue-specific methylation and aberrant de novo methylation, CB-
iPSCs and K-iPSCs were distinct in genome-wide DNA methylation profiles and
differentiation potential. Extended passage of some iPSC clones in culture did not improve
their epigenetic resemblance to embryonic stem cells, implying that some human iPSCs …
Abstract
We compared bona fide human induced pluripotent stem cells (iPSCs) derived from umbilical cord blood (CB) cells and neonatal keratinocytes (K). As a consequence of both incomplete erasure of tissue-specific methylation and aberrant de novo methylation, CB-iPSCs and K-iPSCs were distinct in genome-wide DNA methylation profiles and differentiation potential. Extended passage of some iPSC clones in culture did not improve their epigenetic resemblance to embryonic stem cells, implying that some human iPSCs retain a residual 'epigenetic memory' of their tissue of origin.
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