
Epigenetic mechanisms play an essential role in the germline and imprinting cycle. Germ cells show extensive epigenetic programming in preparation for the generation of the totipotent state, which in turn leads to the establishment of pluripotent cells in blastocysts. The latter are the cells from which pluripotent embryonic stem cells are derived and maintained in culture. Following blastocyst implantation, postimplantation epiblast cells develop, which give rise to all somatic cells as well as primordial germ cells, the precursors of sperm and eggs. Pluripotent stem cells in culture can be induced to undergo differentiation into somatic cells and germ cells in culture. Understanding the natural cycles of epigenetic reprogramming that occur in the germline will allow the generation of better and more versatile stem cells for both therapeutic and research purposes.
Epigenomics, Pluripotent Stem Cells, Zygote, Embryonic Development, Cell Differentiation, Cell Communication, DNA Methylation, Histones, Adult Stem Cells, Genomic Imprinting, Blastocyst, Oocytes, Animals
Epigenomics, Pluripotent Stem Cells, Zygote, Embryonic Development, Cell Differentiation, Cell Communication, DNA Methylation, Histones, Adult Stem Cells, Genomic Imprinting, Blastocyst, Oocytes, Animals
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