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Full article: Pluripotency and Epigenetic Factors in Mouse Embryonic Stem Cell Fate Regulation
An Extended Transcriptional Network for Pluripotency of Embryonic Stem Cells: Cell
Regulation of Stem Cell Pluripotency and Differentiation Involves a Mutual Regulatory Circuit of the Nanog, OCT4, and SOX2 Pluripotency Transcription Factors With Polycomb Repressive Complexes and Stem Cell microRNAs
Promoter CpG Methylation Contributes to ES Cell Gene Regulation in Parallel with Oct4/Nanog, PcG Complex, and Histone H3 K4/K27 Trimethylation: Cell Stem Cell
Promoter CpG Methylation Contributes to ES Cell Gene Regulation in Parallel with Oct4/Nanog, PcG Complex, and Histone H3 K4/K27 Trimethylation: Cell Stem Cell
Activin/nodal signaling and NANOG orchestrate human embryonic stem cell fate decisions by controlling the H3K4me3 chromatin mark. - Abstract - Europe PMC
Lipogems Product Treatment Increases the Proliferation Rate of Human Tendon Stem Cells without Affecting Their Sternness and Differentiation Capability - Document - Gale Academic OneFile
Ube2s regulates Sox2 stability and mouse ES cell maintenance
Multipotent Progenitor Cells Are Present in Human Peripheral Blood
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