Targeted DNA demethylation using TALE-TET1 fusion proteins
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ABSTRACT: Recent large-scale studies have defined genomewide, cell type-specific patterns of DNA methylation, a modification known to be important for regulating gene expression in both normal development and disease states. However, determining the functional significance of specific methylation events remains a challenging problem due to the current lack of targeted methodologies for removing these modifications. Here we describe an approach for efficient targeted demethylation of specific CpGs in human cells using fusions of engineered transcription activator-like effector (TALE) repeat arrays and the TET1 hydroxylase catalytic domain. Using these TALE-TET1 fusions, we demonstrate that modification of certain critical methylated promoter CpG positions can be associated with substantial increases in endogenous human gene expression. Our results delineate a general strategy for defining the functional significance of specific CpG methylation marks in the context of endogenous gene loci and validate new programmable DNA demethylation reagents with broad utility for research and potential therapeutic applications.
ORGANISM(S): Homo sapiens
PROVIDER: GSE50761 | GEO | 2013/09/23
SECONDARY ACCESSION(S): PRJNA218854
REPOSITORIES: GEO
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