Authors
Margaret A Young, David E Larson, Chiao-Wang Sun, Daniel R George, Li Ding, Christopher A Miller, Ling Lin, Kevin M Pawlik, Ken Chen, Xian Fan, Heather Schmidt, Joelle Kalicki-Veizer, Lisa L Cook, Gary W Swift, Ryan T Demeter, Michael C Wendl, Mark S Sands, Elaine R Mardis, Richard K Wilson, Tim M Townes, Timothy J Ley
Publication date
2012/5/4
Journal
Cell stem cell
Volume
10
Issue
5
Pages
570-582
Publisher
Cell Press
Description
To assess the genetic consequences of induced pluripotent stem cell (iPSC) reprogramming, we sequenced the genomes of ten murine iPSC clones derived from three independent reprogramming experiments, and compared them to their parental cell genomes. We detected hundreds of single nucleotide variants (SNVs) in every clone, with an average of 11 in coding regions. In two experiments, all SNVs were unique for each clone and did not cluster in pathways, but in the third, all four iPSC clones contained 157 shared genetic variants, which could also be detected in rare cells (<1 in 500) within the parental MEF pool. These data suggest that most of the genetic variation in iPSC clones is not caused by reprogramming per se, but is rather a consequence of cloning individual cells, which "captures" their mutational history. These findings have implications for the development and therapeutic use of cells that are …
Total citations
Scholar articles
MA Young, DE Larson, CW Sun, DR George, L Ding… - Cell stem cell, 2012