MeCP2 recognizes cytosine methylated tri-nucleotide and di-nucleotide sequences to tune transcription in the mammalian brain

MeCP2 recognizes cytosine methylated tri-nucleotide and di-nucleotide sequences to tune transcription in the mammalian brain

Mutations in the gene encoding the methyl-CG binding protein MeCP2 cause several neurological disorders including Rett syndrome. The di-nucleotide methyl-CG (mCG) is the classical MeCP2 DNA recognition sequence, but additional methylated sequence targets have been reported. Here we show by in vitro...

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Veröffentlicht in:PLoS genetics 2017-05, Vol.13 (5), p.e1006793
Hauptverfasser: Lagger, Sabine, Connelly, John C, Schweikert, Gabriele, Webb, Shaun, Selfridge, Jim, Ramsahoye, Bernard H, Yu, Miao, He, Chuan, Sanguinetti, Guido, Sowers, Lawrence C, Walkinshaw, Malcolm D, Bird, Adrian
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Authorship
Bioinformatics
Biology
Biology and life sciences
Brain - metabolism
Brain research
CpG Islands
Cytosine
Cytosine - metabolism
Deoxyribonucleic acid
Dinucleotide Repeats
Disease
DNA
DNA Methylation
Epigenesis, Genetic
Epigenetics
Funding
Gene expression
Gene mutation
Genetic aspects
Genomes
Hydration
Informatics
Laboratory animals
Male
Mammals
MeCP2 protein
Medicine and Health Sciences
Methyl-CpG binding protein
Methyl-CpG-Binding Protein 2 - genetics
Methyl-CpG-Binding Protein 2 - metabolism
Mice
Mice, Inbred C57BL
Mutation
Nervous system diseases
Neurological diseases
Neurological disorders
Nucleotide sequence
Protein Binding
Proteins
Research and Analysis Methods
Rett syndrome
Rett Syndrome - genetics
Stem cells
Transcription
Transcription (Genetics)
Trinucleotide Repeats
Veterinary medicine
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Zusammenfassung:Mutations in the gene encoding the methyl-CG binding protein MeCP2 cause several neurological disorders including Rett syndrome. The di-nucleotide methyl-CG (mCG) is the classical MeCP2 DNA recognition sequence, but additional methylated sequence targets have been reported. Here we show by in vitro and in vivo analyses that MeCP2 binding to non-CG methylated sites in brain is largely confined to the tri-nucleotide sequence mCAC. MeCP2 binding to chromosomal DNA in mouse brain is proportional to mCAC + mCG density and unexpectedly defines large genomic domains within which transcription is sensitive to MeCP2 occupancy. Our results suggest that MeCP2 integrates patterns of mCAC and mCG in the brain to restrain transcription of genes critical for neuronal function.
ISSN:1553-7404
1553-7390
1553-7404
DOI:10.1371/journal.pgen.1006793