
AbstractDNA methylation on CpG sites is the most common epigenetic modification. Recently, methylation in a non-CpG context was found to occur widely on genomic DNA. Moreover, methylation of non-CpG sites is a highly controlled process and its level may vary during cellular development. To study non-CpG methylation effects on DNA/protein interactions, we have chosen three human transcription factors (TFs): glucocorticoid receptor (GR), brain and muscle ARNT-like 1 (BMAL1) - circadian locomotor output cycles kaput (CLOCK) and estrogen receptor (ER) with methylated or unmethylated DNA binding sequences, using single-molecule and isothermal titration calorimetry assays. The results demonstrated that these TFs interact with methylated DNA with different effects compared with their cognate DNA sequences. The effects of non-CpG methylation on transcriptional regulation were validated by cell-based luciferase assay at protein level. The mechanisms of non-CpG methylation influencing DNA-protein interactions were investigated by crystallographic analyses and molecular dynamics simulation. With BisChIP-seq assays in HEK-293T cells, we found that GR can recognize highly methylated sites within chromatin in cells. Therefore, we conclude that non-CpG methylation of DNA can provide a mechanism for regulating gene expression through directly affecting the binding of TFs.
Male, Chromatin Immunoprecipitation, Base Sequence, Infant, Newborn, Brain, CLOCK Proteins, DNA Methylation, Middle Aged, Molecular Dynamics Simulation, Crystallography, X-Ray, Article, DNA-Binding Proteins, Cytosine, HEK293 Cells, Gene Expression Regulation, Humans, CpG Islands, Female, Luciferases, Promoter Regions, Genetic, Protein Binding
Male, Chromatin Immunoprecipitation, Base Sequence, Infant, Newborn, Brain, CLOCK Proteins, DNA Methylation, Middle Aged, Molecular Dynamics Simulation, Crystallography, X-Ray, Article, DNA-Binding Proteins, Cytosine, HEK293 Cells, Gene Expression Regulation, Humans, CpG Islands, Female, Luciferases, Promoter Regions, Genetic, Protein Binding
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