
DNA hydroxylation catalyzed by Tet dioxygenases occurs abundantly in embryonic stem cells and neurons in mammals. However, its biological function in vivo is largely unknown. Here, we demonstrate that Tet1 plays an important role in regulating neural progenitor cell proliferation in adult mouse brain. Mice lacking Tet1 exhibit impaired hippocampal neurogenesis accompanied by poor learning and memory. In adult neural progenitor cells deficient in Tet1, a cohort of genes involved in progenitor proliferation were hypermethylated and downregulated. Our results indicate that Tet1 is positively involved in the epigenetic regulation of neural progenitor cell proliferation in the adult brain.
Aging, Active DNA Demethylation, Neurogenesis, Green Fluorescent Proteins, Gene-Expression, Hippocampus, Postnatal-Development, 1307 Cell Biology, Nestin, Mice, Cognition, 1311 Genetics, Memory, 5-Hydroxymethylcytosine, Proto-Oncogene Proteins, Genetics, Animals, Embryonic Stem-Cells, Promoter Regions, Genetic, Cell Proliferation, Neurons, Stem Cells, Brain, Cell Biology, DNA Methylation, DNA-Binding Proteins, Gene Expression Regulation, 1313 Molecular Medicine, Dentate Gyrus, 5-Methylcytosine, Molecular Medicine, Neural Stem, Mammalian Dna
Aging, Active DNA Demethylation, Neurogenesis, Green Fluorescent Proteins, Gene-Expression, Hippocampus, Postnatal-Development, 1307 Cell Biology, Nestin, Mice, Cognition, 1311 Genetics, Memory, 5-Hydroxymethylcytosine, Proto-Oncogene Proteins, Genetics, Animals, Embryonic Stem-Cells, Promoter Regions, Genetic, Cell Proliferation, Neurons, Stem Cells, Brain, Cell Biology, DNA Methylation, DNA-Binding Proteins, Gene Expression Regulation, 1313 Molecular Medicine, Dentate Gyrus, 5-Methylcytosine, Molecular Medicine, Neural Stem, Mammalian Dna
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