Project description:The role of HELLS in human induced pluripotent stem cells II

Project description:DNA methylation is essential for genome integrity and involves multi-layered chromatin interac-tions that require remodeling proteins like the Helicase, Lymphoid-specific (HELLS). Here, we generate HELLS and de novo DNA methyltransferase 3 A and B (DNMT3A/B) knockout human pluripotent stem cells and assemble telomere-to-telomere maps of whole genome bisulfite se-quencing data combined with ATAC-sequencing. Disrupting HELLS induces a global loss of DNA methylation that is distinct from the de novo DNMTs, in particular over peri/centromeric satellite repeats as defined in the telomere-to-telomere genome assembly. However, HELLS is dispen-sable for local enhancer remodeling and the potential to differentiate into the three germ layers. Taken together, these findings further clarify the genomic targets and role of HELLS in human cells.

Project description:interactions that require remodeling proteins like the Helicase, Lymphoid-specific (HELLS). Here, we generate HELLS and de novo DNA methyltransferase 3 A and B (DNMT3A/B) knockout hu-man pluripotent stem cells and assemble telomere-to-telomere maps of whole genome bisulfite sequencing data combined with ATAC-sequencing. Disrupting HELLS induces a global loss of DNA methylation that is distinct from the de novo DNMTs, in particular over peri/centromeric satellite repeats as defined in the telomere-to-telomere genome assembly. However, HELLS is dispensable for local enhancer remodeling and the potential to differentiate into the three germ layers. Taken together, these findings further clarify the genomic targets and role of HELLS in human cells.

Project description:mouse embryonic fibroblasts, embryonic stem cells, and induced pluripotent stem cells were compared via metabolomic analysis

Project description:Comparison of hyperosmolarity stress associated proteomic changes between induced pluripotent stem cells (hiPSCs/IMR90-01) and differentiated SH-SY5Y cells.

Project description:Shotgun proteomics analysis of directed differentiation of human induced pluripotent stem cells to cardiomyocytes

Project description:Fibroblasts have been shown to re-program into induced pluripotent stem (hiPS) cells, through over-expression of pluripotency genes. These hiPS cells show similar characteristics to embryonic stem cells including cell surface markers, epigenetic changes and ability to differentiate into the three germ layers. However it is unclear as to the extent of changes in gene expression through the re-programming process.. 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/

Project description:We tried to understand the N-glycoproteom molecular differences between induced pluripotent stem cells and embryonic stem cells. This is important to improve the reprograming process and induced pluripotency in the context of post translational protein N-glycosylation

Project description:HELLS is a known chromatin remodeler, but its specific genomic targets have not been sufficiently described. Here, we report the generation of HELLS knockout human pluripotent cells and through telomere-to-telomere mapping of whole genome bisulfite sequencing data combined with ATAC-sequencing, we discovered a striking loss of DNA methylation over inaccessible, satellite repeats. Our study further clarifies the role of HELLS and provides insights into functional consequences through its deregulation in diseases.

Project description:Establishment of Bovine Induced Pluripotent Stem Cells