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PSCP_bisulphite analysis in hESCs

Many studies over the past 10 years, culminating in the recent report of the International Stem Cell Initiative (ISCI, 2011) have shown that hPSC acquire genetic and epigenetic changes during their time in culture. Many of the genetic changes are non-random and recurrent, probably because they provide a selective growth advantage to the undifferentiated cells. Some are shared by embryonal carcinoma cells, the malignant counterparts of ES cells. The origins of these growth advantages are poorly understood, but may come from altered cell cycle dynamics, resistance to apoptosis or altered patterns of differentiation. Less is known about the nature and consequences of epigenetic changes, but it is likely that these similarly affect hPSC behaviour; e.g., enhanced expression of DLK1, an imprinted gene, is associated with altered hPSC growth (Enver et al 2005). Inevitably, these genetic and epigenetic changes will impact on our ability to use hPSC for regenerative medicine, either because malignant transformation of the undifferentiated cells or their differentiated derivatives to be used for transplantation compromises safety, or because they impede the function of those differentiated derivatives, or because they affect the efficiency with which the undifferentiated cells can be expanded and differentiated into desired cell types. Focusing initially upon the existing clinical grade hESC lines, later moving to iPSC, we will Consolidate and extend knowledge of the rate, type and functional impact of the genetic variations that occur during hPSC culture. We will use whole genome and exome sequencing as well as SNP arrays, together with clonal analysis and other cytogenetics techniques. Common changes will be compared with those found in the normal human population, at low frequency in the original cell population or observed during iPSC generation in the HIPSCI project currently based at the WTSI. These studies will provide a better understanding of the range of genetic changes that occur in hPSC beyond the CNVs already identified. In conjunction with cancer genome resources and expertise at WTSI, bioinformatic analyses of these hPSC data will allow us to assess potential impact on hPSC behaviour pertinent to applications in regenerative medicine, notably the likelihood that specific changes arising in undifferentiated PSC cultures may be associated with potential malignant transformation of differentiated progeny. This data is part of a pre-publication release. For information on the proper use of pre-publication data shared by the Wellcome Trust Sanger Institute (including details of any publication moratoria), please see http://www.sanger.ac.uk/datasharing/

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Studies are experimental investigations of a particular phenomenon, e.g., case-control studies on a particular trait or cancer research projects reporting matching cancer normal genomes from patients.

Study ID Study Title Study Type
Epigenetics

This table displays only public information pertaining to the files in the dataset. If you wish to access this dataset, please submit a request. If you already have access to these data files, please consult the download documentation.

ID File Type Size Located in
EGAF00001151650 cram 1.7 GB
EGAF00001151651 cram 3.1 GB
EGAF00001151652 cram 2.1 GB
EGAF00001151653 cram 2.8 GB
EGAF00001151654 cram 2.4 GB
EGAF00001151655 cram 1.6 GB
EGAF00001151656 cram 1.7 GB
EGAF00001151657 cram 2.4 GB
EGAF00001151658 cram 754.1 MB
EGAF00001151659 cram 483.3 MB
EGAF00001151660 cram 962.9 MB
EGAF00001151661 cram 888.9 MB
EGAF00001151662 cram 2.4 GB
EGAF00001151663 cram 1.3 GB
EGAF00001151664 cram 1.0 GB
EGAF00001151665 cram 921.9 MB
EGAF00001151666 cram 817.4 MB
EGAF00001151667 cram 2.9 GB
EGAF00001151668 cram 2.0 GB
EGAF00001151669 cram 3.8 GB
EGAF00001151670 cram 2.1 GB
EGAF00001153028 cram 3.2 GB
EGAF00001153029 cram 1.3 GB
EGAF00001153030 cram 1.7 GB
EGAF00001153031 cram 925.9 MB
EGAF00001153032 cram 3.1 GB
EGAF00001153033 cram 2.2 GB
EGAF00001153034 cram 968.6 MB
EGAF00001153035 cram 1.5 GB
EGAF00001153036 cram 816.5 MB
EGAF00001153037 cram 949.1 MB
EGAF00001153038 cram 1.4 GB
EGAF00001153039 cram 1.2 GB
EGAF00001153040 cram 2.1 GB
EGAF00001153041 cram 2.3 GB
EGAF00001153042 cram 2.8 GB
EGAF00001153043 cram 1.2 GB
EGAF00001153044 cram 1.5 GB
EGAF00001153045 cram 2.5 GB
EGAF00001153046 cram 512.6 MB
EGAF00001153047 cram 787.8 MB
EGAF00001153048 cram 1.6 GB
EGAF00001153049 cram 724.6 MB
EGAF00001153050 cram 3.0 GB
EGAF00001153051 cram 1.3 GB
EGAF00001153052 cram 1.4 GB
EGAF00001153053 cram 1.7 GB
EGAF00001153054 cram 1.0 GB
EGAF00001153055 cram 1.7 GB
EGAF00001153056 cram 1.4 GB
EGAF00001153057 cram 2.1 GB
EGAF00001153058 cram 1.4 GB
EGAF00001153059 cram 560.9 MB
EGAF00001153060 cram 934.4 MB
EGAF00001153061 cram 1.1 GB
EGAF00001153062 cram 3.5 GB
EGAF00001153063 cram 1.9 GB
EGAF00001153064 cram 2.8 GB
EGAF00001153065 cram 1.8 GB
EGAF00001153066 cram 156.5 MB
EGAF00001153067 cram 2.5 GB
EGAF00001153068 cram 2.6 GB
EGAF00001153069 cram 2.0 GB
EGAF00001153070 cram 2.6 GB
EGAF00001153071 cram 1.2 GB
EGAF00001153072 cram 1.1 GB
EGAF00001153073 cram 1.2 GB
EGAF00001153074 cram 3.0 GB
EGAF00001153075 cram 2.0 GB
EGAF00001153076 cram 1.3 GB
EGAF00001153077 cram 1.9 GB
EGAF00001153078 cram 1.9 GB
EGAF00001153079 cram 2.6 GB
EGAF00001153080 cram 1.3 GB
EGAF00001153081 cram 1.6 GB
EGAF00001153082 cram 2.1 GB
EGAF00001153083 cram 1.7 GB
EGAF00001153084 cram 10.7 MB
EGAF00001153085 cram 2.6 GB
EGAF00001170142 cram 1.2 GB
80 Files (137.6 GB)