Differential roles for MBD2 and MBD3 at methylated CpG islands, active promoters and binding to exon sequences.
about
Probing the dynamic distribution of bound states for methylcytosine-binding domains on DNAModifiers and Readers of DNA Modifications and Their Impact on Genome Structure, Expression, and Stability in DiseaseEmerging Molecular and Biological Functions of MBD2, a Reader of DNA MethylationATP-dependent chromatin remodeling complexes as novel targets for cancer therapyMBD2 and MBD3: elusive functions and mechanismsMBD3 expression and DNA binding patterns are altered in a rat model of temporal lobe epilepsyInsight into the Architecture of the NuRD Complex: STRUCTURE OF THE RbAp48-MTA1 SUBCOMPLEXMBD3 localizes at promoters, gene bodies and enhancers of active genesTranscription Factor hDREF Is a Novel SUMO E3 Ligase of Mi2α.Genome-wide binding of MBD2 reveals strong preference for highly methylated lociMaternal nutrition induces gene expression changes in fetal muscle and adipose tissues in sheep.Dissecting the behavior and function of MBD3 in DNA methylation homeostasis by single-molecule spectroscopy and microscopy.Mi-2/NuRD chromatin remodeling complexes regulate B and T-lymphocyte development and function.A dominant role for the methyl-CpG-binding protein Mbd2 in controlling Th2 induction by dendritic cells.Dynamics of MBD2 deposition across methylated DNA regions during malignant transformation of human mammary epithelial cellsThe dual specificity phosphatase 2 gene is hypermethylated in human cancer and regulated by epigenetic mechanismsConstraint of gene expression by the chromatin remodelling protein CHD4 facilitates lineage specification.A Broad Set of Chromatin Factors Influences SplicingThe nucleosome remodeling and deacetylase complex in development and disease.MeCP2 suppresses LIN28A expression via binding to its methylated-CpG islands in pancreatic cancer cells.Tagging methyl-CpG-binding domain proteins reveals different spatiotemporal expression and supports distinct functions.CHD4 Is a Peripheral Component of the Nucleosome Remodeling and Deacetylase ComplexSerum starvation-induced cell cycle synchronization stimulated mouse rDNA transcription reactivation during somatic cell reprogramming into iPSCsZic2 is an enhancer-binding factor required for embryonic stem cell specification.DNA methylation directs genomic localization of Mbd2 and Mbd3 in embryonic stem cells.Regulatory landscape and clinical implication of MBD3 in human malignant glioma.The function of chromatin modifiers in lineage commitment and cell fate specification.Methyl-CpG-binding domain proteins: readers of the epigenome.Methyl-CpG-Binding Protein (MBD) Family: Epigenomic Read-Outs Functions and Roles in Tumorigenesis and Psychiatric Diseases.Methyl-CpG-binding protein MBD2 plays a key role in maintenance and spread of DNA methylation at CpG islands and shores in cancer.MBD3/NuRD facilitates induction of pluripotency in a context-dependent manner.Ectopically tethered CP190 induces large-scale chromatin decondensation.Expression of sperm-specific protamines impairs bacterial and eukaryotic cell proliferation.CpG and methylation-dependent DNA binding and dynamics of the methylcytosine binding domain 2 protein at the single-molecule level.Reduced mRNA expression levels of MBD2 and MBD3 in gastric carcinogenesis.Cytosine modifications modulate the chromatin architecture of transcriptional enhancers.DNA methylation regulates discrimination of enhancers from promoters through a H3K4me1-H3K4me3 seesaw mechanism.Chromatin Remodelling Proteins and Cell Fate Decisions in Mammalian Preimplantation Development.Real-time observation of light-controlled transcription in living cells.MBD3 mediates epigenetic regulation on EPAS1 promoter in cancer.
P2860
Q24311338-EB50B943-5F6D-4A72-B6DB-FF805E562B66Q26742136-C28F00CC-6A46-424A-9C41-F7DF8C0ED048Q26745958-665480D6-5D16-4D16-8B76-9CB4CE23D2D8Q26849467-D7154D3B-A3A4-4C0D-8C42-43F6F8AE480FQ26996661-A9D0E2A5-D5B6-4B4F-9209-48FDCFA613FFQ27346840-537BF3C6-DEAF-4EA5-8CED-4F92C9351DA8Q27684304-680D4143-FF59-4ED3-84E4-C8A843ABF61DQ28537973-7975A269-693A-4AC6-A681-EBF8A5B2D57FQ29871439-A64150F4-D937-4905-8B5D-72D0A49CEB78Q33753555-8E563D97-7B9F-4DAF-B4F7-FE7015AB4DA5Q34993600-A80C8664-8782-4DFD-AAA7-2F80BB9A5708Q35237029-1146632D-0839-4ADF-BBF4-FA6EBF95CFC8Q35282150-217FCD95-0F64-4639-B244-B892639C7E53Q35549617-427D6429-1F78-4118-8503-7552DCDFF49CQ35842503-454248E5-2528-4C89-9124-EDAD5B762363Q35911372-EDB581C2-0BEA-40AB-AB17-33DB01017674Q35928105-EF474E54-F878-499C-B4A0-2E7B1EB90847Q36143120-1AC9FAA4-7DFD-4DD1-BC6B-75B33D8A1FD3Q36692354-61325D1E-54A8-4458-AB59-48BCF71B186EQ37046644-3E14C743-99FD-40F6-AAFD-A4BFB294D793Q37055349-DD7177ED-13CC-481F-981C-D5DC120E26D2Q37117342-C43B5CCF-1290-42E6-A0A5-3134754C17B1Q37169287-E2B9A072-60FC-4A1E-88B7-2ADC928E3E7AQ37228941-420C8300-034F-4B86-AE38-8537153C137FQ37418269-08C23FD9-B6D0-4619-BDC0-ECCF4AFB1E52Q37684657-AE0BC070-C595-4640-86B6-B1034C855019Q38263642-BD624ADC-9CF8-4830-8ECA-597FE3A805C7Q38451083-A72CD5FD-63E3-40AA-9580-9F61370D7612Q38553124-98098D94-28B2-4631-8291-1B153A0BE7B7Q38748279-A0651C5E-FBCE-418E-8096-9D95157621AFQ38994364-EA3669AB-4513-4269-84A4-BC3A40308E05Q39029565-A381D3DB-8BC5-4740-A7EA-2A298D03D4FCQ39043454-A57D454C-2E28-4E0A-B0D9-0CAC9C164EA6Q41629782-F47F2A15-E4E1-4374-8C6D-CC1EF16C6D51Q44401460-009BC54F-6F4D-470E-9435-E3D18EABF2BAQ45054514-B22879E2-879E-49AB-BC5F-0F9A9F13486EQ47256933-D4017BE6-75CF-4803-BAF6-87C0BB3A81A4Q47282814-96E4375C-E78C-4454-830C-E009CA8FC22DQ47419207-EE969B50-5590-4F44-8ED6-1B77A48DE184Q51611929-CD36A10A-B0D4-44C9-82DA-27C6BD9FB5BC
P2860
Differential roles for MBD2 and MBD3 at methylated CpG islands, active promoters and binding to exon sequences.
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
2013年论文
@zh
2013年论文
@zh-cn
name
Differential roles for MBD2 an ...... and binding to exon sequences.
@en
Differential roles for MBD2 an ...... and binding to exon sequences.
@nl
type
label
Differential roles for MBD2 an ...... and binding to exon sequences.
@en
Differential roles for MBD2 an ...... and binding to exon sequences.
@nl
prefLabel
Differential roles for MBD2 an ...... and binding to exon sequences.
@en
Differential roles for MBD2 an ...... and binding to exon sequences.
@nl
P2093
P2860
P356
P1476
Differential roles for MBD2 an ...... and binding to exon sequences.
@en
P2093
Joerg Leers
Katharina Günther
Mareike Rust
Marek Bartkuhn
Maren Scharfe
Michael Jarek
Rainer Renkawitz
Thomas Boettger
P2860
P304
P356
10.1093/NAR/GKT035
P407
P577
2013-01-29T00:00:00Z